proposal kln2 unri and utm 2014 year 2
DESCRIPTION
a proposal for diktiTRANSCRIPT
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ABSTRACT
The optical fiber coupler switch is a main component in optical networking system. It plays
important key as a passive device in the integrated optical circuit that can be used to combine,
to split, to rout, and to switch the optical signals. The optical signals propagating in the fiber
coupler will experience some power losses which are mainly caused by the geometrical
structure of coupling region. Since the performance of fiber coupler is determined by the
optical losses, it can be minimized by determining the coupling parameters of the coupling
region such as coupling coefficient, coupling ratio, refractive index, and also fabrication
parameters such as fusion temperature and pulling speed. The coupling parameters are
determined by modeling the fiber coupler using Optiwave software. This will design based on
point of view with exact size in OptiFiber and then the performance will be tested by
demonstrating the optical operation circuit. Theoretically, the coupling coefficient will be
determined by perturbation method using Bessel and Hankel functions. The optical switch
ON/OFF coupler then is set up by applying a direct current voltage to the coupling region.
Both experimental and theoretical methods are conducted and compared to produce a better
performance of optical switch. Finally, by fabricating the multi directional fiber coupler with
appropriate temperature, pulling speeds, coupling coefficient, coupling ratio, assuming no
power losses of the coupling region, so that those will be then obtained for a better use in
optical communication system.
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CONTENT LIST
Page
COVER i
ENDORSEMENT ii
ABSTRACT 1
CONTENT LIST 2
CHAPTER I INTRODUCTION 3
CHAPTER II LITERATURE REVIEW 6
2.1 Overview of Directional Fiber coupler for Optical Switch 6
2.2 Pockels Effect in Optical Fiber 9
CHAPTER III RESEARCH METHODOLOGY 10
3.1 Introduction 10
3.2 Determination of theoretical model of optical switch (UR) 11
3.3 To Fabricate Multi Directional Fiber Coupler 13
3.4 Design and Operation Optical Switch by applying DC Voltage to Fabricate
Fiber Coupler 13
3.5 The Use of Multi Optical Switch in Integrated Optical System 14
CHAPTER IV BUDGET AND RESEARCH SCHEDULE 16
4.1 Budgetary Cost 16
4.2 Research Schedule 18
REFERENCES 19
APPENDICES 1. Justification of research budget 21
2. Facilities and Infrastructures of Research 31
3. Research Team Organization and Task 31
4. Memorandum of Understanding/Letter of Intent 32
5. Curriculum Vitae 44
6. Letter of Statement from Researcher Leader 58
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CHAPTER I
INTRODUCTION
The development of optical fiber in network communication system has greatly expanded. It
has been used to carry the data, video, voice and to require wide bandwidth and big capacity.
In integrated optical signal processing, the optical fiber network requires junctions to split the
communication system. A fiber coupler is one of passive optical device component having
important role in optical circuit system. This component can be used in many applications in
launching signal such as splitting, combining, and switching optical signals (Ankiewicz,
1986) hence, it has interesting phenomena to be studied. In order to build the fiber coupler
component, this optical directional fiber coupler was usually fabricated using fusion
technique. For instance, two single mode fiber (SMF-28e), 1X2 is simply twisted together,
then both sides are pulled during fusion. The mechanism is stopped when the pre-set value of
coupling ratio is reached. However, this fabrication is concerned with a fixed fiber coupler.
In optical application, some networking system needs to branch its signal from a device to
another device with certain branch ratio (coupling ratio). In this case, the fiber coupler with
tunable coupling ratio is required. In 2003, the analysis of directional coupler electro-optic
switches using effective-index-based matrix method was reported (Arumugam, 2001). The
optical directional coupler switch was made by the diffusion of Titanium in Lithium Niobate
(Ti:LiNbO3) substrates and incorporation of suitable electrodes (Chen, 2006). In that study
the normalized mode profile was shown at different propagating distance of a direct current
Direct Current (DC) switch with uniform electrode.
The Breakdown voltage investigation of fusion SiO2optical coupler was also reported by
using Pockels effect model. The model is evaluated by using the coupling coefficient and the
changes in the refractive index. When there is an applied voltage to the coupler, polarization
of SiO2 material occurred. All the positive elements will be attracted and arranged directed to
the incident source (Danh, 1981). Here, the incident electric field is much larger than the total
electric field of the polarization phenomenon in the optical fiber. The coupling ratio
significantly depends on the refractive index change, the coupling coefficient, and the
separation between the fibers (Decusatis, 2006). In this paper, the breakdown voltage effect is
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experimentally purposed to provide fiber coupler by reducing refractive indices with tunable
coupling ratio by applying DC voltage to the coupling region fiber coupler. The experimental
result will be then compared to the theoretical calculation.
Either coupling ratio or breakdown voltage has meet the requirement to switch the power
launched, the higher order of MXN fiber coupler is not considered yet for optical switch since
the ON/OFF mode still launches the minimum power wavelength for splitting. This is also
due to the higher applied voltage to breakdown the fiber coupler. Therefore, this problem is
necessary to advance and enhance the passive component system reliability and performance
for a better function of optical fiber coupler.The objective of this research proposal embarks
as follows:
1. To design, fabricate and operate multi ports optical fiber coupler by OptiWave
Software
2. To demonstrate multi ports optical fiber coupler using fusion and elongation method
3. To model Pockels effect and breakdown voltage of multi optical switch fiber coupler
4. To design, fabricate and operate multi optical switch fiber coupler by OptiWave
5. To demonstrate multi optical switch fiber coupler by direct current voltage
This proposal will contribute to have an efficient and effective performance of optical switch
fiber coupler where it can be used for various power source with multi ports optical switch.
Since 2006, development of fiber couplers has been greatly investigated in details not only
due to power losses but also due to kinds of design and operation to function fiber couplers.
To design, fabricate, operate and measure the performance of fiber coupler are uneasy. It is
high cost and few companies and universities concerned to this demonstration. One of
universities, which fabricate and operate several passive optical components, is Universiti
Teknologi Malaysia (UTM), Johor, Malaysia. It is Advanced Photonics Science Institute
UTM has active collaboration to Physics Department, Faculty of Math and Natural Sciences,
University of Riau (UR), Pekanbaru Indonesia. In the last few years the collaboration is the
use of laboratory devices, machine as hardware and also software, the paper publications are
also highly consideration. This collaboration had produced good paper publication with
impact factor, patent filing production and also students completing their higher degree in
Master and Doctoral degree. Nowadays the official collaboration has been formulated in
umbrella of Momerandum of Understanding (MoU) between University of Riau and
Universiti Teknologi Malaysia in the last two years. This is also implemented in a lower level
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as a Letter of Intent (LoI) between Advanced Photonics Science Institute(UTM) and Physics
Department, Faculty of Math and Natural Sciences (UR). Both universities prepare good
researchers and has meeting periodically. UR is more liable for modeling and theoretical
consideration and UTM is responsible for equipment and devices.
By planning the progress of research, the output results will be communicated in International
conferences and reported in four papers with the impact factor journal. Hopefully, if the
product fulfills the needs of the market then it will be recorded to two patents filing to
external board indirectly or internal university board as a spin off company. Last but not
least, two degree students will be produced; one master and one doctoral student will be
involved in this research project.
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CHAPTER II
LITERATURE REVIEW
2.1 Overview of Directional Fiber coupler for Optical Switch
An optical directional coupler is a great optical device, and it has been used for many
applications such as optical switches and tunable filters and device sensor in
telecommunication. It consists of two or more fibers joint in space by using twist-etching
methods, contacting by voltage method, and fusion method. The directional fiber coupler was
experimentally studied based on the energy exchange among guided modes (Yariv, 1973). He
also theoretically determined a coupling equation from unperturbed general wave equation. A
derivation of his general theory was followed by the application to the specific cases of
electro optic modulation, photo elastic and magneto-optic modulation, and optical filtering.
The different case study of directional fiber coupler was proposed by Nagata (2000). In this
study, the chemical properties of the coupling region are investigated. A Fourier Transform
Infrared (FTIR) spectroscopy and Atomic Force Microscopy (AFM) were used to analyze the
properties of silica glass fiber after it is coupled. This study also confirmed that at several
distances from the center region of the fiber coupler was slightly deteriorated, possibly
leading to lower stability due to humid condition. This problem was then covered until the
progress in the study of directional fiber was continued by Wu (Tzong-Lin & Hung-Jiun,
2004). The field of his study was concentrated upon the analysis of polarization
characteristics and its effect to the output power which is called Polarization Dependent Loss
(PDL) in the fiber coupler. The output powers were modeled as a function of heated length,
and it was also investigated for the various directions of polarization vector of light coming
into the input ports of the fiber coupler. The rigorous analysis of PDL was also proposed by
using Mueller's matrix method. This study summarized that PDL is gradually decreased as a
function of the coupled length.
The development of single mode fiber for fiber coupler imposes more intention when
(Saktioto et al., 2008) investigated partial power gradient of basic 1X2 fiber coupler. The
single mode directional fiber coupler was fabricated for the various coupling ratios in range
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of 1% to 70% by heating the coupling region. The distribution of fusion temperature provided
by torch flame was also determined by modeling and experiment as slightly unstable.
Moreover, the coupling coefficient was exhibited as the comparison between the theoretical
reference and empirical equation from the experimental results. Saktioto (2010) also
presented that the power transmission in fundamental 1X2 fiber coupler was mainly
determined by the coupling coefficient. In addition, the change of refractive index was also
calculated from the coupling coefficient in the range of 0.6/mm to 0.9/mm.
The fabrication process to produce directional fiber couplers requires an advance technique
since it deals with small SMF having the diameter in micron size. In past two decades, (Danh
et al., 1981) proposed a method to fabricate optical fiber coupler namely twist-etching
method. This method successfully fused two single mode fibers by potting the coupling
region. The twisted-coupling region was solidified by filling a bottle and then two fibers were
positioned with certain index oil, and it was simplified with a liquid state potting material.
However, this technique still produces a fiber coupler with high insertion and exertion loss
about 20 dB. In 1987, Yokohama exhibits a new method to fabricate fiber coupler with better
performance compared to the previous works. The steps of this fabrication are started by
removing the fiber coating, followed by fiber setting at the connector and installed in the
workstation. The coupling region is then fused until the desired coupling ratio is reached.
The fabrication of directional fiber coupler was improved from a conventional to the
advanced technique in period of time. Fusion method was optimized by changing the plasma
source (McAtamney et al., 2005). The coupling region of two fibers was heated by utilizing
CO2 laser. Good performance of basic of 2X2 directional fiber coupler was obtained where
the coupling region is heated with a suitable fusion period. This method still has significant
limitation of experimental set up, because the process contaminates the structure of SiO2
silica fiber due to the chemical reaction between higher temperature CO2 laser and the silica
fiber. It may also change the properties of SiO2 fiber, instead of high-cost fabrication
technique.
Fabrication process of directional fiber coupler was changed in advanced by (Saktioto et al.,
2010). The basic of 2X2 directional fiber coupler was successfully fabricated by heating and
pulling the coupling region at 1350 C. Various coupling ratios in range of 1 % - 70 % were
obtained. The temperature distribution produced by torch flame was established by
experimental and theoretical model as slightly unstable plasma fusion.
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However, the development of fiber coupler requires many input and output power, this is a
consequence of signal processing where the integrated optical system has demand to fulfill
the need of power splitting and distribution to application. Therefore MXN of fiber coupler is
a must to consider due to its capability to process many signal including optical switching.
Optical switch can be designed by changing the refractive index of Mach-Zehnder
Interferometer (MZI) waveguides. Singth (2010) designed an 1X2 optical switch based on
MZI by using Titanium in-diffusion Lithium Niobate (Ti:LiNbO3). The signal was switched
from waveguide 1 to the waveguide 2 by applying the dc voltage to the waveguide of MZI.
Difference optical switch was also designed which based on the ring resonator. In this study,
the ratio of power output is controlled by using mechanical process such as by changing the
distance between the linear waveguide and the ring resonator.
In last three years, the directional fiber coupler was used as an optical switch (Saktioto,
2010). The optical switch consists of 1X2 configuration that enables to switch optical power
from fiber 1 to fiber 2, whichwas successfully studied. Althoughit produces high optical
losses and high DC voltage, it can be investigated to be a better performance where the
coupling ratio can be modified in low electrical power.However, the design of optical switch
based on directional fiber coupler is a good option since the MZI design requires costly
fabrication process compare with use of the Single Mode Fiber Coupler. The multi optical
switch based on the directional fiber coupler is a very flexible device that can switch the
optical signal to the desired output ports with the tunable coupling ratio. This also a complete
set of devices that can match together as an efficient and effective performance of future
optical devices as an integrated function of multi ports optical switch.
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2.2 Pockels Effect in Optical Fiber
The breakdown voltage investigation of fusion SiO2 optical fiber coupler was reported by
(Saktioto, Faridah Hanim, et al., 2010) using Pockels effect model. The model was evaluated
by using the coupling coefficient and the changes in the refractive index. When there is an
applied voltage to the coupling, a polarization of SiO2 material occurs. All the positive
elements will be attracted and arranged directed to the incident electric fields E(x,t) (Singh et
al., 2008).
Here, it can be said that the incident electric field is much larger than the total electric field of
polarization phenomenon in the optical fiber. When an external electric field is applied using
a suitable electrodes, the refractive index profile of the waveguides is varied due to electro-
optic effect. This variation depends upon the type of electrodes used and on the relative
position of the electrodes. By considering linear electro optic or Pockels effect, the change of
refractive index can be mathematically expressed as follows (He & Liu, 1999).
(2.1)
whereE is the electric field supposed perpendicular to fiber.
Equation (2.1) describes that the changes of the refractive index is proportional with the
applied electric field at the coupling length and the fiber diameter. Since the applied voltage
is examined by using two electrodes with the distance of separation between them denoted as
x, the relationship between the electric field and the applied voltage is basically given by the
following Equation (Tipler & Mosca, 2007).
(2.2)
Equation (2.2) implies that the longer distance between the electrodes, the higher voltage is
required to induce the electric field at the coupling length. As given by Equation (2.1) and
Equation (2.2), it is possible to adjust the coupling ratio by applying dc voltage transversely
to the coupling length.
3
( , , ) ( , )2
nn y V rE x y
VE
x
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CHAPTER III
RESEARCH METHODOLOGY
3.1 Introduction
This research methodology embarks the theoretical and experimental study. It can be
summarized as the following flow chart.
Figure 3.1 A flow chart of research methodology
Start of project Review of multi directional fiber
coupler and optical switch (UR)
To determine the theoretical model of
optical switch (UR)
Modeling of coupling and switching
parameters
To design the multi optical switch based
on directional fiber coupler using optiBPM
To optimize the proposed design of multi
optical switch
To fabricate multi directional fiber coupler
for various coupling ratio
To design multi optical switch using
fabricated fiber coupler
To measure power characteristics and
optical properties of multi optical switch
To measure the parameters affecting the
optical switch
To demonstrate and test the multi
optical switch fiber coupler in
integrated optical system
Comparison for validation and
optimization
To write paper journals
for publication
The end of project
Writing the
project Report
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3.2 Determination of the Theoretical Model of Optical Switch (UR)
Since the multi fibers in parallel configuration and electromagnetically separated, the
interaction of the electric field between them can be mathematically expressed in term of
transfer matrix as follows,
1 12 11 1
21 2 23 22 2
32 3 34 33
( 1)
0 . . . 0 (0)( ) ( )
0 . . . (0)( ) (
0 0 . . (0)( )
. . . . . . . . .
. . . . . . . ..
. . . . . . 0 ..
0 . . . 0 (0)( ) N N N NM
AA z A z
AA z A
AA zd
jdz
AA Z
1
2
33
(0)
(0))
(0)( )
..
..
..
(0)( )
pq
NM
A
Az
AA z
j M
AA Z
(3.1)
Where, 1
sin sin1 1
m
nz
pq
p q
pm qmM e
n n
, and 2 cos , , , , 1,2,3,...
1m
mjK m q s t
n
is
eigenvalue of coupled-mode differential matrix. If the input power is launched to the one of
the input ports, the power distribution is normalized. A MXN fiber coupler can be a star
coupler which means that it consists of M input and N output ports. It has been shown that
the power transfers between the fibers are the case where the coupling coefficient is much
smaller than the propagation constant. The Propagation constant and the coupling coefficient
are given by Equation 3.2 and 3.3 respectively.
1/22 2
1
2
2 n U
(3.2)
2 0
3 2
1
/
( )
U K W d
V K W
(3.3)
where is the wavelength of light in vacuum, K s are modified Hankel function, the value of
2
2
1
1n
n
, 2 21
2 nV U W
is a normalized frequency,
1 22.405eV
U
is the
progression of phase, and W is the transverse decay of amplitude.
When an external electric field is applied using suitable electrodes, the refractive index
profile of the waveguides is modified due to electro-optic effect. The Pockels effect is
known if the variation or refractive index linear to the applied electric field. On the other
hand, Kerr effect is referred to if the variation in the refractive index is proportional to the
square of the applied field. The refractive indices are functions of the electrical field applied
on some crystal materials. The refractive index change is linearly proportional to the applied
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electric field. The switching voltage can be mathematically expressed by substituting
Equation (2.2) into Equation (2.1) as follows,
1/2
1 3
1
22 2 1DC
xV n
rn
(3.4)
It can be seen clearly from Equation (3.4) that the breakdown voltage significantly depends
on the distance between two electrodes, and the refractive index of fiber coupler.The
modeling multi directional fiber coupler for multi optical switch is carried out by using
Matrix Laboratory (Matlab)software with the flow chart shown in Figure 3.2.
(a) (b)
Figure 3.2 The flowchart used for the modeling work, (a) To model power exchange between
fibers (b) To model multi optical switch based on directional fiber coupler
start
Calculate coupling
coefficient
Number of
fibers
Calculate
power output
finish
x n
2
21 2x
Phase= z
1 2 1
1
, , ,
, , , ,
co co cl
cl
n n n
n a z d
start
Input data
Calculate Coupling Ratio
Plot
End
22
1
1n
n
1
2 nV
1/2
31 1
22 2 1
DC
xn n
rV
2e
2
A B C
a
1 2, , , , , ,
, , , , ,
DCV n n x r a
A B C D
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3.4 To Fabricate Multi Directional Fiber Coupler
An experimental set up shown in Figure3.3 is based onfusion and elongation techniques. It is
carried out by placing two or more optical fibers on the stages. Corning fiber (SMF-28e),
with the diameter of core and cladding 125 mand 8.2 m respectively, are connected to the
laser source (1310 nm) and displayed to the photo detector. The two fibers are twisted and
held by a vacuum system in both stages. After setting the parameters set up, the system has to
be homing process. 1 mW laser launched to the one of input ports is detected by photo
detector and kept for calibration,while fusion and pulling process are operated. During torch
flame heating the coupling region, the fibers are elongated by pulling stages with suitable
pulling speed. Heating and pulling process will be automatically stopped when the pre-set
coupling ratio is reached. The final step is the coupling region savedfrom any vibration by
packaging it.
Figure 3.3 Schematic diagrams to fabricate multi directional fiber coupler
3.5 Design and Operation Optical Switch by Applying DC Voltage to Fabricate
Fiber Coupler
The fabricated multi directional fiber coupler is used to design optical switch. The direct
current voltage is used to induce the coupling region as illustrated in Figure 3.4. A laser diode
in 1mW and 1310 nm or 1550 nm is launched to the one of input ports. By increasing the
applied voltage, the changes of coupling ratio at the output ports are then recorded by optical
power meter.
Acquisition Card
Motorized Stages
Monitor Display
PL_L Fusion
Fiber 3
PD1
PD3
PD2
Vacuum System
Laser Source
1310, 1550nm
Computer, Control Parameter Set Up
PL_R
Fiber 1
Fiber 2
Torch
Flame
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Figure 3.4Aschematicdesign of multi optical switch based on directional fiber coupler
Concurrently, the multi optical switch based on directional fiber coupler is also designed by
using computer software of Optiwave software named optical Beam Propagation Method
(optiBPM). It is designed by the same characteristics of the fabricated fiber coupler. An
example of the design is shown in Figure 3.5. The coupling region of single mode fiber
coupler is induced by two electrodes with adjustable dc voltage as the power source. The
design is then compared with the experimental design. From the comparison, the parameter
of fusion and switching will be also determined.
Figure 3.5OptiBMP design of 1X3 optical switch.
3.6 The Use of Multi Optical Switch in Integrated Optical System
Figure 3.6 shows the schematic diagram of an optical system to demonstrate and test
performance of multi optical switch. The tuneable Laser Source (TLS) as an optical source
launched to the input port of optical switch through a circulator. When optical power
propagates at coupling region, it is induced by applying the DC voltage. As the power is
Electrode (+)
Electrode (-)
DC Power Supply
- + 0
Optical Source
SMF-28e
Optical Power meter SMF-28e
Optical Power meter
SMF-28e
Adjustable plate
SMF-28e Fiber Coupler
Optical Power meter SMF-28e
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switched to the other output ports, they will be detected by the Optical Power Meter (OPM),
and the spectrum is displayed in Optical Spectrum Analyser (OSA). The throughput power
divided by a fiber coupler is amplified so that the power can be recorded by OSA.
Concurrently, another output power of fiber coupler is connected to the circulator 2. Finally
the output signal will be compared with the signal at the output port of Fiber Bragg Grating
(FBG) through Erbium Doped Fiber Amplifier (EDFA)
Figure 3.6A schematic diagram to demonstrate and test the multi optical switch fiber
coupler
+
DC
-
A B
OSA
TLSFC FC
FBG OSA
EDFA OSA
A
OSA
OSA
OSA
OSA
OPM 1
OPM 3 OPM 2
Circulator 1
Circulator 2
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CHAPTER IV
BUDGETARY AND RESEARCH SCHEDULE
4.1 BUDGETARY COST
Summary of budgetary cost is shown on Table 1.
Tabel 1. Summary of budgetary cost for research of Kerjasama Luar Negeri (KLN)
No. Expenditure
Proposed Budget Year 1 and Year 2 (Rp.)
Year 1 Year 2
DIKTI Universitas
Riau UTM Remarks DIKTI
Universitas
Riau UTM Remarks
1
Salary and
allowances (max
30%)
Rp.
58.500.000,- -
Rp.
34.500.000,-
Rp.
58.500.000,- -
Rp.
34.500.000,-
2 Raw material and
equipment (30-40%)
Rp.
78.000.000,-
Rp.
25.000.000,-
Rp.
47.250.000,-
Rp.
78.000.000,-
Rp.
25.000.000,-
Rp.
26.250.000,-
3 Travelling (15-25%) Rp.
48.750.000,- - -
Rp.
48.750.000,- - -
4
Publication,
Conference, Report
and others
Rp.
9.750.000,- -
Rp.
8.250.000,-
Rp.
9.750.000,- -
Rp.
14.250.000,-
Total 310.000.000 295.000.000
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Tabel 2. Summary of budgetary cost for research of Kerjasama Luar Negeri (KLN)
No. Expenditure
Accepted Budget Year 1 (Rp.)
Year 1 Year 2
DIKTI Universitas
Riau UTM Remarks DIKTI
Universitas
Riau UTM Remarks
1 Salary and allowances
(max 30%)
Rp.
40.500.000,- -
Rp.
34.500.000,- - - -
2 Raw material and
equipment (30-40%)
Rp.
54.000.000,-
Rp.
25.000.000,-
Rp.
47.250.000,- - - -
3 Travelling (15-25%) Rp.
33.750.000,- - - - - -
4 Publication, Conference,
Report and others
Rp.
6.750.000,- -
Rp.
8.250.000,- - - -
Total 135.000.000 (From DIKTI)
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4.2 RESEARCH SCHEDULE
The schedule of this research is depicted on Table 2.
Tabel 3.Research schedule of KLN
No Jenis Kegiatan Year 1 Year 2
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12
1 To review fiber coupler and optical
switch from journals, conference papers
and books
2 To model the multi fiber coupler for
optical switch using Pockels effect
3 To fabricate multi ports directional fiber
coupler.
4 To improve the fiber coupler
performance in term of optical losses by
Optiwave system.
5 To design multi optical switch by using
fabricated multi directional fiber
coupler
6 To test the model and test the optical
design with integrated optical circuit
through the experimentand Optiwave
7 To compare the models with
experimental studies and Optiwave
8 To validate the model with dominant
parametric functions
9 To optimize the optical circuit with
integrated optical circuit and Optiwave
10 To write papers for publication in
impact factor journal
11 To evaluate and report the project
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V. REFERENCES
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Chen, C. L. (2006). Foundations for Guided-Wave Optics. John Wiley & Sons.
Danh, T., Kee, K., & Sang, S. (1981). Single-mode fiber directional couplers fabricated by
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988-991.
Decusatis, C., & DeCusatis, C. J. S. (2006). Fiber Optic Essentials. Elsevier/Academic Press.
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University Press.
Kao, K., & Hockham, G. A. (1986). Dielectric-fibre surface waveguides for optical
frequencies 191-198.
Little, B. E., & Huang, W. A. (1995). Coupled-Mode Theory for Optical Waveguide.
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Reproducible Method for Fabricating Fused BiconicalTapered Couplers Using a CO2
Laser Based Process. Proceedings of the Third International WLT-Conference on
Lasers in Manufacturing.
Morishita, K., & Yamazaki, K. (2011). Wavelength and Polarization Dependences of Fused
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Saktioto, T., Ali, J., Zainal, J., & Rahman, R. A. (2008). A partial power gradient at coupling
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voltage investigation of fusion SiO2 optical coupler switch using Pockel effect model.
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Singh, G., Yadav, R. P., Janyani, V., & Ray, A. (2008). Design of 2x2 Optoelectronic Switch
Based on MZI and Study the Effect of Electrode Switching Voltages. World Academy
of Science, Engineering and Technology. 39, 401-407.
Snyder, A. W., & Love, J. D. (1983). Optical Waveguide Theory. Chapman and Hall.
Tipler, P. A., & Mosca, G. (2007). Physics for Scientists and Engineers. W. H. Freeman.
Tzong-Lin, W., & Hung-Jiun, O. (2004). Rigorous analysis of polarization-dependence loss
(PDL) for equilateral 33 fused fiber couplers. Photonics Technology Letters,
IEEE. 16(1), 165-167.
Yariv, A. (1973). Coupled-mode theory for guided-wave optics. Quantum Electronics, IEEE
Journal of. 9(9), 919-933.
-
21
VI. APPENDICES
Appendix 1a. Justification of Research Cost for PROPOSED BUDGET YEAR 1 AND YEAR 2
1. Honor
Honor Honor/Jam (Rp) Waktu
(Jam/Minggu) Minggu
Peruntukan Anggaran Honor Per Tahun (Rp)
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
Ketua (UR) Rp. 90.000,-/Jam 10 Jam/Minggu 40 Rp. 36.000.000,- - - Rp. 36.000.000,- - -
Anggota (UR) Rp. 70.313,-/Jam 8 Jam/Minggu 40 Rp. 22.500.000,- - - Rp. 22.500.000,- - -
Ketua dan anggota UTM Rp. 107.813,-/Jam 8 Jam/Minggu 40 - Rp. 34.500.000,- - - Rp. 34.500.000,- -
SUB TOTAL (Rp) Rp. 58.500.000,- Rp. 34.500.000,- - Rp. 58.500.000,- Rp. 34.500.000,- -
SUB TOTAL (Rp) Rp. 93.000.000,- Rp. 93.000.000,-
2. Peralatan Penunjang
Material Justifikasi
Pemakain Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Harga Peralatan Penunjang (Rp)
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
TLS (sewa) Power source 2 Rp. 1.500.000,- - - - Rp. 1.500.000,- - -
OSA (sewa) Spectrum detector 6 Rp. 800.000,- - - - Rp. 800.000,- - -
Optical Circuit Panel
(sewa) Circuit panel 1 set Rp. 8.500.000,- - - - Rp. 8.500.000,- - -
Software FDTD /FBG To model optical
switch 1 set Rp. 113.325.000,- Rp. 66.075.000,- Rp. 47.250.000,- - - - -
Printer Laser Jet HP To print document
1 Rp. 2.000.000,- - - Rp. 2.000.000,- - - -
-
22
results and report
Ink (Catridge) Printer HP To print document
results and report 3 Rp. 1.300.000,- - - Rp. 1.300.000,- - - -
A4 (80 gr)@Rp. 35.000,- To print document
results and report 6 rim Rp. 210.000,- - - Rp. 210.000,- - - -
Komputer Modeling and
Data processing 2 unit Rp. 10.000.000,- - - Rp. 10.000.000,- - - -
FC 1x4@Rp. 1.200.000,- Splitter 2 Rp. 2.400.000,- - - Rp. 2.400.000,- - - -
FC 1x2@Rp. 1.200.000,- Splitter 2 Rp. 2.400.000,- - - Rp. 2.400.000,- - - -
Meja & Kursi
Laboratorium Lab no evaluable 1 set Rp. 6.690.000,- - - Rp. 6.690.000,- - - -
Ruangan Lab. & Lemari To save document 1 set Rp. 25.000.000,- - - - - - Rp. 25.000.000,-
Annual Project Report To record the
project 2 Rp. 1.000.000,- Rp. 1.000.000,- - - Rp. 1.000.000,- - -
SUB TOTAL (Rp) Rp. 67.075.000,- Rp. 47.250.000,- Rp. 25.000.000,- Rp. 11.800.000,- - Rp. 25.000.000,-
SUB TOTAL (Rp) Rp. 139.325.000,- Rp. 36.800.000,-
3. Bahan Habis Pakai
Material Justifikasi
Pemakaian Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Biaya per Tahun
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
980nm Pump Laser For experiment Rp. 4.500.000,- - - - Rp. 4.500.000,- - -
Broadband Isolator,
1550nm +/- 30nm (C&L
band) Single Stage
For experiment 1 set Rp. 1.050.000,- - - - Rp. 1.050.000,- - -
SM Coupler For experiment Rp. 900.000,- - - - Rp. 900.000,- - -
-
23
Pigtailed Polarization
Controller Polarite
To control
polarized light 1 set Rp. 5.850.000,- - - - Rp. 5.850.000,- - -
125m IsoGain erbium doped fibre 1-4(980/125)
(35mtr/spool)
To amplify the
signal 1 set Rp. 3.800.000,- - - - Rp. 3.800.000,- - -
Erbium doped fibre for
Metro type EDFAs,
MetroGain
To amplify the
signal 1 set Rp. 4.350.000,- Rp. 4.350.000,- - - - - -
FC/UPC ATTN 1dB-
20dB (5/pcs) For experiment 5 pcs Rp. 1.575.000,- Rp. 1.575.000,- - - - - -
SMF-28 G.652 Optical
Fiber (Length 2km)
terminated with FC/PC
For experiment Rp. 2.400.000,- - - - Rp. 2.400.000,- - -
Fiber Bragg Grating
(FBG) For experiment 1 Rp. 4.500.000,- - - - Rp. 4.500.000,- - -
Polarization Controller
(PC) For experiment Rp. 5.500.000,- - - - Rp. 5.500.000,- - -
Optical Power Meter Signal detector 2 Rp. 16.000.000,- - - - Rp. 16.000.000,- - -
Power Supply 3000 Volt
(DC) (sewa) DC source 1 Rp. 5.000.000,- Rp. 5.000.000,- - - - - -
Portable Optical Source Laser source 1 Rp. 7.000.000,- - - Rp. 7.000.000,- - -
Bare Connector, Mesin
Fiber Coupler&Excimer
Laser (Penyewaan)
Experiment
equipment Rp. 40.950.000,- - - - Rp. 14.700.000,- Rp. 26.250.000,- -
SUB TOTAL (Rp) Rp. 10.925.000,- - - Rp. 66.200.000,- Rp. 26.250.000,- -
SUB TOTAL (Rp) Rp. 10.925.000,-
Rp. 102.450.000,-
-
24
4. Perjalanan
Material Justifikasi
Perjalanan Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Biaya per Tahun
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
(PP) Pekanbaru-Johor Kalibrasi Operasi
Peralatan I & II 1 set Rp. 3.500.000,- Rp. 3.500.000,- - - Rp. 3.500.000,- - -
(PP) Pekanbaru-Johor Pengolahan Data
Eksperimen I & II 1 set Rp. 3.500.000,- Rp. 3.500.000,- - - Rp. 3.500.000,- - -
(PP) Pekanbaru-Johor Validasi Data
Modeling 1 set Rp. 3.500.000,- Rp. 3.500.000,- - - Rp. 3.500.000,- - -
(PP) Pekanbaru-Spanyol Konferensi
Internasional 1 set Rp. 38.250.000,- Rp. 38.250.000,- - - - - -
(PP) Pekanbaru-Inggris Konferensi
Internasional - - - - - Rp. 38.250.000,- - -
SUB TOTAL (Rp) Rp. 48.750.000,- - - Rp. 48.750.000,- - -
SUB TOTAL (Rp) Rp. 48.750.000,- Rp. 48.750.000,-
5. Lain-Lain
Kegiatan
Justifikasi
Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Biaya per Tahun
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
Publikasi Jurnal International
Impact Factor 1 Rp. 5.000.000,- Rp. 5.000.000,- - - Rp. 5.000.000,- - -
Publikasi Jurnal International
Impact Factor 1 Rp. 6.000.000,- - - - - Rp. 6.000.000,- -
Publikasi Book Chapter
Intech Publisher, Croatia International
(Scopus & Impact 2 Rp. 13.000.000,- Rp. 4.750.000,- Rp. 8.250.000,- - Rp. 4.750.000,- Rp. 8.250.000,- -
-
25
Factor)
SUB TOTAL (Rp) Rp. 9.750.000,- Rp. 8.250.000,- - Rp. 9.750.000,- Rp. 14.250.000,- -
SUB TOTAL (Rp) Rp. 18.000.000,- Rp. 24.000.000,-
Keterangan:
1. Harga sudah termasuk pajak;
2. 1 RM = Rp. 3088,-;
3. Target: 2 jurnal of impact factor;
4. 2 Mahasiswa S1; 1 Mahasiswa M.Sc; 1 Mahasiswa Ph.D;
5. 1 Patent Filing;
-
26
Appendix 1b. Justification of Research Cost for ACCEPTED BUDGET YEAR 1
1. Honor
Honor Honor/Jam (Rp) Waktu
(Jam/Minggu) Minggu
Peruntukan Anggaran Honor Per Tahun (Rp)
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
Ketua (UR) Rp. 76.250,-/Jam 10 Jam/Minggu 40 Rp. 30.500.000,- - - - - -
Anggota (UR) Rp. 31.250,-/Jam 8 Jam/Minggu 40 Rp. 10.000.000,- - - - - -
Ketua dan anggota UTM Rp. 107.813,-/Jam 8 Jam/Minggu 40 - Rp. 34.500.000,- - - - -
SUB TOTAL (Rp) Rp. 40.500.000,- Rp. 34.500.000,- - - - -
SUB TOTAL (Rp) Rp. 93.000.000,-
2. Peralatan Penunjang
Material Justifikasi
Pemakain Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Harga Peralatan Penunjang (Rp)
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
TLS (sewa) Power source 2 Rp. 1.500.000,- - - - - - -
OSA (sewa) Spectrum detector 6 Rp. 800.000,- - - - - - -
Optical Circuit Panel
(sewa) Circuit panel 1 set Rp. 8.500.000,- - - - - - -
Software FDTD /FBG To model optical
switch 1 set Rp. 113.325.000,- Rp. 52.500.000,- Rp. 60.825.000,- - - - -
Printer Laser Jet HP To print document
results and report 1 Rp. 2.000.000,- - - Rp. 2.000.000,- - - -
-
27
Ink (Catridge) Printer HP To print document
results and report 3 Rp. 1.300.000,- - - Rp. 1.300.000,- - - -
A4 (80 gr)@Rp. 35.000,- To print document
results and report 6 rim Rp. 210.000,- - - Rp. 210.000,- - - -
Komputer Modeling and
Data processing 2 unit Rp. 10.000.000,- - - Rp. 10.000.000,- - - -
FC 1x4@Rp. 1.200.000,- Splitter 2 Rp. 2.400.000,- - - Rp. 2.400.000,- - - -
FC 1x2@Rp. 1.200.000,- Splitter 2 Rp. 2.400.000,- - - Rp. 2.400.000,- - - -
Meja & Kursi
Laboratorium Lab no evaluable 1 set Rp. 6.690.000,- - - Rp. 6.690.000,- - - -
Ruangan Lab. & Lemari To save document 1 set Rp. 25.000.000,- - - - - -
Annual Project Report To record the
project 2 Rp. 1.000.000,- - - - - - -
SUB TOTAL (Rp) Rp. 52.500.000,- Rp. 47.250.000,- Rp. 25.000.000,-
SUB TOTAL (Rp) Rp. 139.325.000,-
3. Bahan Habis Pakai
Material Justifikasi
Pemakaian Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Biaya per Tahun
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
980nm Pump Laser For experiment Rp. 4.500.000,- - - - - -
Broadband Isolator,
1550nm +/- 30nm (C&L
band) Single Stage
For experiment 1 set Rp. 1.050.000,- - - - - - -
SM Coupler For experiment Rp. 900.000,- - - - - - -
-
28
Pigtailed Polarization
Controller Polarite
To control
polarized light 1 set Rp. 5.850.000,- - - - - - -
125m IsoGain erbium doped fibre 1-4(980/125)
(35mtr/spool)
To amplify the
signal 1 set Rp. 3.800.000,- - - - - - -
Erbium doped fibre for
Metro type EDFAs,
MetroGain
To amplify the
signal 1 set Rp. 4.350.000,- - - - - - -
FC/UPC ATTN 1dB-
20dB (5/pcs) For experiment 5 pcs Rp. 300.000,- Rp. 1.500.000,- - - - - -
SMF-28 G.652 Optical
Fiber (Length 2km)
terminated with FC/PC
For experiment Rp. 2.400.000,- - - - - - -
Fiber Bragg Grating
(FBG) For experiment 1 Rp. 4.500.000,- - - - - - -
Polarization Controller
(PC) For experiment Rp. 5.500.000,- - - - - - -
Optical Power Meter Signal detector 2 Rp. 16.000.000,- - - - - - -
Power Supply 3000 Volt
(DC) (sewa) DC source 1 Rp. 5.000.000,- - - - - - -
Portable Optical Source Laser source 1 Rp. 7.000.000,- - - - - -
Bare Connector, Mesin
Fiber Coupler&Excimer
Laser (Penyewaan)
Experiment
equipment Rp. 40.950.000,- - - - - - -
SUB TOTAL (Rp) Rp. 1.500.000,- - - - - -
SUB TOTAL (Rp)
Rp. 1.500.000,-
-
29
4. Perjalanan
Material Justifikasi
Perjalanan Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Biaya per Tahun
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
(PP) Pekanbaru-Johor Kalibrasi Operasi
Peralatan I & II 1 set Rp. 3.500.000,- Rp. 3.500.000,- - - - - -
(PP) Pekanbaru-Johor Pengolahan Data
Eksperimen I & II 1 set Rp. 3.500.000,- Rp. 3.500.000,- - - - - -
(PP) Pekanbaru-Johor Validasi Data
Modeling 1 set Rp. 3.500.000,- Rp. 3.500.000,- - - - - -
(PP) Pekanbaru-Spanyol Konferensi
Internasional 1 set Rp. 23.250.000,- Rp. 23.250.000,- - - - - -
(PP) Pekanbaru-Inggris Konferensi
Internasional - - - - - - - -
SUB TOTAL (Rp) Rp. 33.750.000,- - - - - -
SUB TOTAL (Rp) Rp. 33.750.000,-
5. Lain-Lain
Kegiatan
Justifikasi
Kuantitas
Harga Satuan
(Rp)
Peruntukan Anggaran Biaya per Tahun
Tahun 1 Tahun 2
DIKTI UTM Universitas Riau DIKTI UTM Universitas Riau
Publikasi Jurnal International
Impact Factor 1 Rp. 1.000.000,- - - - - - -
Publikasi Jurnal International
Impact Factor 1 Rp. 6.000.000,- Rp.6.750.000- - - - - -
Publikasi Book Chapter International
(Scopus & Impact 2 Rp. 13.000.000,- - Rp. 8.250.000,- - - - -
-
30
Intech Publisher, Croatia Factor)
SUB TOTAL (Rp) Rp. 6.750.000,- Rp. 8.250.000,- - - - -
SUB TOTAL (Rp) Rp. 18.000.000,-
Keterangan:
6. Harga sudah termasuk pajak;
7. 1 RM = Rp. 3088,-;
8. Target: 2 jurnal of impact factor;
9. 2 Mahasiswa S1; 1 Mahasiswa M.Sc; 1 Mahasiswa Ph.D;
10. 1 Patent Filing;
-
31
Appendix 2. Facilities and Infrastructures of Research
No. Material/
Equipment DIKTI
University
of Riau
Universiti
Teknologi
Malaysia
1 Matlab Software - V
2 Laboratory of Optics - V
3 Laboratory of Photonics - V
4 Photonics Tools - V
Appendix 3. Research Team Organisation and Task
No Nama / NIDN Instansi
Asal Bidang Ilmu
Alokasi
Waktu
(jam/minggu)
Uraian Tugas
1 Dr. Saktioto, M.Phil /
00301070002
Universitas
Riau
Fisika
Fotonik 10 jam/minggu
Merancang,
memfabrikasi dan
mengukur besaran fisis
fiber coupler dan optical
switch component secara
experiment
2 Dr. Sofia Anita M.Sc /
0020046502
Universitas
Riau
Earth and
Environment
al Sciences,
Instrumentati
on
8 jam/minggu
Membandingkan dan
menguji parameter fisis
fiber coupler dan optical
switch component secara
simulasi
3 Prof. Dr. Jalil Ali
Dr. Dedi Irawan, M.Sc
Universiti
Teknologi
Malaysia
Fisika
Fotonik 8 jam/minggu
Merancang fiber coupler
dan optical switch
component dengan
membandingkan dan
memvalidasi secara teori
dan eksperimen
-
32
Appendix 4. Momerandum of Understanding / Letter of Intent and Letter of
Agreement
-
33
-
34
-
35
-
36
-
37
-
38
-
39
-
40
Letter of Intent
-
41
-
42
-
43
-
44
Appendix 5. Curriculum Vitae
Curriculum Vitae of Research Leader
A. Identitas Diri
1 Nama Lengkap Dr. Saktioto, M.Phil
2 Jenis Kelamin Laki-Laki
3 Jabatan Fungsional Lektor Kepala
4 NIP 197010301995021001
5 NIDN 00301070002
6 Tempat dan Tanggal Lahir Bagansiapiapi, 30 Oktober 1970
7 E-mail [email protected]
8 Nomor Telepon/HP HP. +62 812 765 8986
9 Alamat Kantor Kampus Bina Widya Km 12,5 Simpang Baru
Panam, Pekanbaru 28293 RIAU INDONESIA
10 Nomor Telepon/Fax Tel. +62 (0) 761 42061
11 Lulusan yang Telah Dihasilkan S-1 = 35 orang; S-2 = 9 orang; S-3 = 2 orang
12 Mata Kuliah yang Diampu
1. Medan Elektromagnetik
2. Mekanika Klasik
3. Metodologi Riset
4. Kapita Selekta
5. Filsafat Ilmu
B. Riwayat Pendidikan
S-1 S-2 S-3
Nama Perguruan Tinggi Universitas Riau
University of
Manchester Institute
of Science and
Technology (UMIST)
Universiti
Teknologi
Malaysia
Bidang Ilmu Fisika Fisika Plasma Fisika Fotonik
Tahun Masuk Lulus 1989 - 1993 1995 - 2000 2000 - 2009
Judul Skripsi/Tesis/Disertasi Stabilitas Pembatasan
Plasma oleh Medan
Magnetik
Studies of Nitrogen
Plasma Species at
Atmospheric Pressure
Sources
Power Parameters
of Single Mode
Fusion Fiber
coupler
Nama Pembimbing/Promotor Drs. Moethohar, HS
Drs.Sugianto
Prof.Jan Hugill Prof. Jalil Ali
C. Pengalaman Penelitian Dalam 5 Tahun Terakhir
No
Tahun Judul Penelitian
Pendanaan
Sumber Jumlah (Rp)
1 2009 Estimation of Coupling Coeficient for Single
Mode Fiber Coupler
APBD Riau Rp.70.000.000,-
2 2010 Optical Switch of Single Mode Fiber Coupler UTM Rp. 80.000.000,-
3 2011 Coupling parametric of Single Mode Fiber UTM Rp. 50.000.000,-
-
45
Coupler
4 2012 Optical Delays of Photonic Crystal Fiber using
Stimulated Brolliuoin Scattering
UTM Rp. 50.000.000,-
D. Pengalaman Pengabdian Kepada Masyarakat dalam 5 tahun Terakhir
No
Tahun Judul Pengabdian Kepada Masyarakat
Pendanaan
Sumber Jumlah (Rp)
1 2011
Optimalisasi Penggunaan Kit IPA SD
Bidang Mekanika Untuk Guru se-
Kecamatan Bengkalis Kabupatem
Bengkalis
Mandiri Rp. 5.000.000,-
2 2012 Pembinaan Olimpiade Tingkat SD, SMP,
dan SMA Kabupaten Bengkalis
APBD Kab.
Bengkalis,
Riau
Rp. 300.000.000,-
3 2013 Survei Penggunaan Komputer Untuk
Pembelajaran Sekolah Dasar dan Menengah
APBD
KEPRI Rp. 50.000.000,-
4 2013 Lomba Inovasi Pembelajaran Berbasis
Teknologi Informasi dan Komunikasi
APBD
KEPRI Rp. 20.000.000
E. Publikasi Artikel Ilmiah Dalam Jurnal dalam 5 Tahun Terakhir
No Judul Artikel Ilmiah Nama Jurnal Volume/Nomor/Tahun
1 Drug Delivery System Model using
Optical Tweezer Spin Control J BiosensBioelectron 5:3 (2014)
2 Graphene Dual Properties, Mobility and
Polarisibility: The Challenge
J BiosensBioelectron
5:3 (2014)
3 Numerical Studies of Magnetic Field
Dynamics in Electrodes Plasma.
KomunikasiFisika
Indonesia 11:8 Hal 538-546
(2014)
4 Distribution Function for Nonlinear
Potential Gradient High Pressure Plasma
Applied Mechanics
and Material Vols. 511-512 pp 85-93
(2014)
5
Multi-Photons Trapping Stability Within
A Fiber Bragg Grating For Quantum
Sensor Use
Komunikasi Fisika
Indonesia
11:8 Hal 568-576
(2014)
6 Experimental Determination of Fused
Multi Directional Fiber Coupler I4CT 2014
7
Fused Multiport Coupler Technique For
Supporting Microactuator to Ischemic
strokes I4CT 2014
8 Optical Power Propagation for Parallel
Configuration of Multiple Waveguide I4CT 2014
-
46
Fiber Couplers
9
An Advanced Technique of Fabricating
Multi Silica Directional Fiber Coupler
3rd
ICAMPN 2014
10
Birefringence analysis of directional fiber
coupler induced by fusion and coupling
parameters Optik
124 (17) , pp. 3063-
3066 (2013)
11
Simulation of Ytterbium doped double
clad fiber laser output power by using
Liekki Application Designer Software
Jurnal Teknologi
(Sciences and
Engineering)
62 (3) , pp. 99-102
(2013)
12
Ultra-short laser pulse generated by a
microring resonator system for cancer cell
treatment Application Designer Software
Artificial Cells,
Nanomedicine and
Biotechnology
41 (3) , pp. 152-158
(2013)
13
Acne vulgarism treatment using ultra-
short laser pulse generated by micro- and
nano-ring resonator system
Artificial Cells,
Nanomedicine and
Biotechnology
41 (2) , pp. 92-97
(2013)
14 Drug trapping and delivery for
Alzheimers diagnosis
Artificial Cells, Blood
Sub stitutes, and
Biotechnology
40 (5) / 303-308 / 2012
15
Estimation of coupling parameters for
auto-motorized fabrication of fused fiber
coupler
Microwave and
Optical Technology
Letters
54 (8) / 1932-1935 /
2012
16 Generation of THz frequency using
PANDA ring resonator for THz imaging
International Journal
of Nanomedicine 7 / 773-779 / 2012
17 Gold nanoparticle trapping and delivery
for therapeutic applications
International Journal
of Nanomedicine 7 / 11-17 / 2012
18 Modification model of soliton pulse for
higher order
Advanced Materials
Research
403-408 / 3744-3747/
2102
19 Slow light in vertically coupled resonator
of conical rod portion
Advanced Materials
Research 403-408 / 43-47 / 2012
20 Electro-optic tuneable of direct current
voltage in ring resonator
Advanced Materials
Research
403-408 / 4174-4178 /
2012
21 Well potential of bright solitary wave in
fiber Bragg grating
Advanced Materials
Research
403-408 / 4300-4303 /
2012
22 Investigation of noise effects of CMS
laser lineshape and frequency fluctuations
IEEE Symposium on
Business, Engineering
and Industrial
Applications, art
6088859 / 464-468 /
2011
23 Estimation of coupling power parameters
of 1X3 directional fused fiber couplers
Proceedings-CIMSim
2011: 3rd
International
Conference on
Computational
Intelligence,
Modelling and
6076390 / 384-487 /
2011
-
47
Simulation, art.
24
Slow light in vertically coupled resonator
of conical rod portion and absorption
phenomena
Conference
Proceedings-2011
IEEE 2nd
International
Conference on
Photonics
61066882 / 2011
25 Proposal for Alzheimers diagnosis using
molecular buffer and bus network
International journal
of nanomedicine 6 / 1209-1216 / 2011
26 Breakdown voltage effect on coupling
ratio fusion fiber coupler Physics Procedia 19 / 477-481 / 2011
27
A reliable Nd:YAG laser welded stainless
steel 304 for photonics device packaging
application
Procedia engineering 9 / 380-385 / 2011
28 Development of FBG sensing system for
outdoor temperature environment Procedia engineering 8 / 386-392 / 2011
29 Nd:YAG laser welding of stainless steel
304 for photonics device packaging Procedia engineering 8 / 374-379 / 2011
30 Radiation self ansorption effect in Ar gas
NX2 Mather type plasma focus Procedia engineering 8 / 393-400 / 2011
31 Graphite thin film deposition using laser
induced plasma Procedia engineering 8 / 423-427 / 2011
32
Thermodynamic equilibrium for nitrogen
species discharge: Comparison with
global model
Optik 122 (5) / 455-458 /
2011
33 Tunable coupling ratio for optical switch
application
Proceedings of SPIE-
The international
Society for Optical
Engineering
7522 / 752252 / 2011
34 Effect of separation length on dual fibre
Bragg gratings
Proceedings of SPIE-
The international
Society for Optical
Engineering
7522 / 75224V / 2010
35 Development of single mode fiber coupler
coeffient using kinetic model Optik
121 (24) / 2205-2208 /
2010
36
Breakdown voltage investigation of fusion
SiO2 optical coupler switch using Pockel
effect model
Optik 121 (24) / 2205-2208 /
2010
37 External disturbance of potential energy
photon in fiber Bragg grating
Proceedings of SPIE-
The international
Society for Optical
Engineering
7522 / 75224X / 2010
38
Investigation of carbon thin films by
pulsed laser deposition at different
temperatures
Optoelectronics and
Advenced Materials,
Rapid
Communications
4 (11) / 1728-1732 /
2010
39
Linear and triangle order of NX3 optical
directional couplers: Variation coupling
coefficient
Proceedings of SPIE-
The international
Society for Optical
Engineering
7781 / 77810J / 2010
-
48
40 Caracterization of coupling power for
single-mode fiber fusion Optik
121 (19) / 1802-1806 /
2010
41 Coupling coefficient and refractive index
estimation for coupled waveguide fiber
AIP Conference
Proceedings 1217 / 424-428 / 2010
42 Novel design of multiplexed sensors using
a dual FBGs scheme
Microwave and
Optical Technology
Letters
52 (5) / 1218-1221 /
2010
43
Photon trapping model within a fiber
bragg grating for dynamic aptical
tweezers use
Microwave and
Optical Technology
Letters
52 (4) / 959-961 / 2010
44 Nonlinear parametric studies of photon in
a Fiber Bragg grating
IEEE Symposium on
Industrial Electronics
and Aplications,
ISIEA
5356428 / 355-357 /
2009
45
Thermodynamic equilibrium of nitrogen
species discharge: Comparison with
global model
World Academy of
Science, Engineering
and Technology
60 / 580-584 / 2009
46
Breakdown voltage investigation of fusion
SiO2 optical coupler switch using Pockel
effect model
Proceedings of SPIE
The International
Society for Optical
Engineering
7386 / 73861V / 2009
47
A simplified coupling power model of
single mode fiber fusion at coupling
length
Asia International
Conference on
Modelling and
Simulation, AMS
5072067 / 671-675 /
2009
48 Modeling of induced voltage of silicon
dioxide fiber coupler
Journal of Nonlinear
Optical Physics and
Material
18 (3) / 481-488 / 2009
49 Simplified coupling power model for
fibers fusion
Opto-electronics
Review 17 (3) / 193-199 / 2009
50 Nonlinear parametric study of photon in a
Fibre Bragg Grating Physics Procedia 2 (1) / 81-85 / 2009
51
Growth dynamics and characteristics of
fabricated Fiber Bragg Grating using
phase mask method
Microelectronics
Journal 40 (3) / 608-610 / 2009
52 Modeling of coupling coefficient as a
function of coupling ratio
Proceedings of SPIE
The International
Society for Optical
Engineering
7155 / 71551P / 2008
53 Active alignment and reliable pigtailing of
laser diode transmitter
Proceedings of SPIE
The International
Society for Optical
Engineering
7155 / 715520 / 2008
54 A study of FBG sensor and electrical
strain gauge for strain measurements
Journal of
Optoelectronics and
Advenced Material
10 (10) / 2564-2568 /
2008
55 Mode matching for efficient laser diode to
single mode fiber coupler
Proceedings of SPIE
The International
Society for Optical
6793 / 67930G / 2008
-
49
Engineering
56 Estimation of coupling power parameter
of fused coupled fibers
Proceedings of SPIE
The International
Society for Optical
Engineering
6793 / 679309 / 2008
57 Coupling and attachment of single mode
fiber into laser diode transmitter
Optoelectronics and
Advenced Materials,
Rapid
Communications
2 (4) / 183-188 / 2008
58 Effects of unstable torch flame for a fused
single mode fiber
Proceedings of SPIE
The International
Society for Optical
Engineering
6838 / 68382A / 2008
59 A partial coupling power of single mode
fiber fusion
Proceedings of SPIE
The International
Society for Optical
Engineering
6838 / 683819 / 2008
60
A tolerant coupling scheme for pigtailing
laser diode module in active alignment
process
Proceedings of SPIE
The International
Society for Optical
Engineering
6824 / 682409 / 2008
61 Estimation of the coupling power
parameter of fused coupled fibers
Jounal of Nonlinear
Optical Physics and
Materials
17 (1) / 111-120 / 2008
62
Simplified chemical kinetic model for
slightly ionized, atmospheric pressure
nitrogen plasmas
Plasma Sources
Science and
Technology
10 (1) / 38-42 / 2011
F. Pemakalah Seminar Ilmiah (Oral Presentation) dalam 5 Tahun Terakhir
No Nama Pertemuan
Ilmiah/Seminar Judul Artikel Ilmiah
Waktu dan
Tempat
4
7th
International Conference
on MEMS, NANO and
Smart Systems (ICMENS)
Well Potential of Bright Solitary
Wave in Fiber Bragg Grating
4-6 November
2011, Shah Alam,
Kuala Lumpur,
Malaysia
5
IEEE Xplore, 2nd
International Conference on
Photonics (ICP)
Slow light in vertically coupled
resonator of conical rod portion
2011, Kota
Kinabalu, Sabah,
Malaysia
7
IEEE Xplore, 2011, IEEE
Symposium on Business,
Engineering and Industrial
Applications (ISBEIA)
Investigation of Noise Effect of CMS
Laser Lineshape and Frequency
Fluctuations
Langkawi,
Malaysia (25-28
Sept 2011)
8
International Conference on
Optics in Precision
Engineering and
Nanotechnology
Breakdown Voltage Effect on
Coupling Ratio Fusion Fiber coupler
Singapore
(ICOPEN 23-25
March 2011)
9 Nanotechnology and Printed Semiconductor CMS Laser Lineshape Singapore
-
50
Electronics, International
Symposium
and Frequency Fluctuations (NANOPRINT 4-5
July 2011)
10 2nd
TMLO
Penetration Depth Estimation for
Stainless Steel 304L using Pulsed
Nd:YAG Laser Spot Microwelding
13rd
-15th
of March
2010, Berjaya
Redang Resort,
Terengganu,
Malaysia
11 PIERS
Multi-photons Trapping Stability
within a Fiber Bragg Grating for
Quantum Sensor Use
Xian, 22-26 March,
2010.China, 2010.
15 International Conference on
Experimental Mechanics
Light Intensity Trapped on Linear
Cross Section of 1X5 Monolithic
Fiber Coupler
ICEM 29 Nov-1
Dec 2010, Kuala
Lumpur
24
International Conference on
Enabling Science and
Nanotechnology
Dynamic Silicon Dioxide Fiber
coupler Polarized by Voltage
Breakdown
1-3 Dec 2010,
Kuala Lumpur
25
International Conference on
Optics in Precision
Engineering and Nano
Technology
Breakdown Voltage Effect on
Coupling Ratio Fusion Fiber coupler
23-25 March 2011,
Singapore
27
Third Asia International
Conference and Modeling
and Simulation
A Simplified coupling power model
of single mode fiber fusion at
coupling length
Bandung 24-29
May 2009,
Indonesia
28
IEEE Symposium on
Industrial Electronics &
Application
Nonlinear Parametric Study of
Photon in a Fiber Bragg Grating
4-6 October 2009,
Kuala Lumpur,
Malaysia.
29
International Conference on
Sensor Networks,
Information, and Ubiquitos
Computing, World
Academy of Science,
Engineering and
Technology
Characteristics of Diffusivity
Parameters for Fused Moving Fiber
Coupler
26-28 August
2009, Singapore
30 4
th International Conference
on Experimental Mechanics
Tunable Coupling Ratio for Optical
Switch Application
18-20 November
2009, Singapore
31
International Conference on
Nuclear, Plasma and
Radiological Engineering
Thermodynamic Equilibrium of
Nitrogen Species Discharge:
Comparison with Global Model
25-27 December
2009, Bangkok,
Thailand
34
International Workshop on
Plasma Diagnostics &
Applications
Numerical Study Of Radiation
Cooling Effect In Plasma Focus
Devices Using Deuterium And
Noble Gases
2-3, July 2009 @
National Institute
of Education, NTU,
Singapore
36 IEEE-RSM2009 Programmable Coupling Ratio
Induced by Breakdown Voltage
Renaissance Hotel,
Kota Bharu,
Kelantan, from
August 10th to
12th, 2009
39 OWTNM 2009 The XVIII th
Breakdown Voltage model of fusion Jena, Germany,
-
51
International Workshop on
Optical Waveguide Theory
and Numerical Modelling
SiO2 Optical Coupler Switch April 17-18, 2009
42 9
th International Symposium
on Laser Metrology
Modeling of coupling coefficient as a
function of coupling ratio
2008, Singapore.
Proceeding. SPIE,
Vol. 7155,
71551P (2008);
DOI:10.1117/12.81
4562
43
Workshop on Recent
Advances of Low
Dimensional Structures and
Devices
Investigation of coupling coefficient
as a function of coupling ratio
2008, Nottingham,
United Kingdom.
44
Proceedings of
International Conference on
Semiconductor Materials
and Optics 2008
Reliable Coupling and Packaging
Technique for Semiconductor Optical
Amplifier
9th
-10th
October
2008, Warsaw,
Poland .
45
Proceedings of 4th
Asian
Symposium On Intense
Laser Science 2008
Characterization of Laser Welding
Technique Applied for Pigtailing of
High Power Laser Diode Transmitters
3rd
6th
Nov. 2008,
Gwangju, South
Korea .
46
Proceedings of the
International Conference of
Science and Technology,
CUTSE
The application of Nd:YAG Laser
Microwelding for Effective Pigtailing
of Miniaturized Laser Diode
Transmitter
24th
27th
Nov.
2008, Curtin
University of
Technology ,
Sarawak,
Malaysia
G. Karya Buku dalam 5 Tahun Terakhir
No Judul Buku Tahun Jumlah Halaman Penerbit
1
Investigation of Photonic
Devices Pigtailing Using Laser
Welding Technique
2008 (170) World Scientific
Publishing Co - eBook
2 Power Parametrics of Single
Mode Fiber Fusion 2010 224 VDM Verlag
3 Matrix Transfer Method of
Power Propagation 2011 72 VDM Verlag
4 Directional Fiber Coupler
Model Induced by Voltage 2011 104 VDM Verlag
5
Cadmium Sulphide
Nanoparticles formed by the
Langmuir Boldgett Technique
2011 216 VDM Verlag
6 Nonlinear Optics in Fiber Bragg
Grating 2012 (480) In Tech, Poland
-
52
H. Perolehan HKI dalam 5-10 Tahun Terakhir
No Judul/Tema HKI Tahun Jenis Nomor I/ID
1 Power Propagation at Coupling
Region of Fusion Fiber coupler
30 August
2010
Methodology
Software
2010700061
2 A Method of Switching ON or
OFF of Optical Fibers 25March2011
Methodology:
Software
2011700030
3 A Method of Determining Power
Propagation 31May2011
Methodology:
Software
2011700078
4
Breakdown Voltage Effect on
Coupling Ratio Fusion Fiber
coupler
2012 Methodology:
Software
On going
process
6
Dual Sources light Intensity
Trapped on Linear Cross Section
of 2X5 Optical Fiber Coupler
2012 Methodology:
Software
On going
process
8
Nitrogen Species Densities
Reactions for Higher
Atmospheric Pressures
2012 Methodology:
Software
On going
process
I. Pengalaman Merumuskan Kebijakan Publik/Rekayasa Sosial Lainnya dalam 5
Tahun Terakhir
No Judul/Tema/Jenis Rekayasa
Sosial Lainnya yang Telah
Diterapkan
Tahun Tempat Penerapan Respon Masyarakat
1
Pembinaan Olimpiade Sains
Nasional Tingkat SD, SMP
dan SMA
2012
Kabupaten
Bengkalis, Propinsi
Riau
Pembinaan sangat
bermanfaat dengan pola
intensif dan interaksif bagi
siswa
J. Penghargaan dalam 10 tahun Terakhir (dari pemerintah, asosiasi atau institusi
lainnya)
No Jenis Penghargaan Institusi Pemberi Penghargaan Tahun
1 Award of Best PhD Chancellor of UTM, Malaysia 2009
2 Reviewer and Referee of
Optical Engineering Journal Optical Engineering Committee 2010
3
Award of Best Scopus
Journal Publication
Quantity
Rector of University of Riau 2012
-
53
Curriculum Vitae of Research Member
A. Identitas Diri 1 Nama Lengkap (dengan gelar) Dr. Hj. Sofia Anita, M.Sc
2 Jenis Kelamin Perempuan
3 Jabatan Fungsional Lektor
4 NIP/NIK/Identitas Lainnya 19650420 199103 2005
5 NIDN 0020046502
6 Tempat dan Tanggal Lahir Sungai Pakning, 20 April 1965
7 E-mail [email protected]
8 Nomor Telepon/HP 085272680717
9 Alamat Kantor Jurusan Kimia FMIPA Kampus Binawidya
Panam. Jl. HR Subrantas KM 12,5.
Pekanbaru
10 Nomor Telepon/Faks 0761(63273)
11 Lulusan yang Telah Dihasilkan S-1: 37 orang; S2: 15 orang; S3: 1 orang
12 Mata Kuliah yang Diampu 1. Manajemen dan Keselamatan Kerja Lab
2. Kimia Lingkungan
3. Statistika Kimia
4. Analisis Instrumen
5. Kimia Terapan
6. Bahasa Inggris
B. Riwayat Pendidikan S-1 S-2 S-3
Nama Perguruan Tinggi Universitas Riau University of
Manchester
Universiti Putra
Malaysia
Bidang Ilmu Kimia Earth and
Environmental
Sciences
Environmental
Studies
Tahun Masuk-Lulus 1989 1998 2009
Judul Skripsi/Tesis/Disertasi Kualitas Air
Sumur Penduduk
Sekitar PT.CPI
Duri
Organotin in
Manchester
Ship Canal and
Mersey
Estuary
Distribution and
Sources of Oil
Pollution in
Northeast
Sumatra
Nama Pembimbing/Promotor Ir. Kusumastuti Andy P. Gize Mhd. Pauzi Z.
C. Pengalaman Penelitian Dalam 5 Tahun Terakhir
No Tahun Judul Penelitian Pendanaan
Sumber* Jml (Juta Rp)
1 2010 The History of Petroleum Pollution in
Malaysia; Urgent Need for Integrated
Prevention Approach
Malaysia -
2 2010 Penyebaran Hidrokarbon Aromatik
Polisiklik Dari Residu Tumpahan Minyak
yang Terdampar di Pantai Nongsa, Batam
Mandiri -
3 2010 Aspek Lingkungan Sosial dan Potensi
Munculnya Perilaku Penambahan Boraks
Mandiri -
mailto:[email protected]
-
54
dalam Proses Produksi Bakso Daging
Sapi di Kota Pekanbaru
4 2010 Bioremediasi Limbah Cair Industri Tahu
Menggunakan Efektif Mikroorganisme
(EM4)
Mandiri -
5 2010 Studies on Aliphatic and Aromatic
Hydrocarbon of Minas and Duri Crude
Oils Using GC-MS
UR 10.000.000
6 2010 Remediasi Limbah Industri Dengan
Menggunakan Metode Adsorpsi
UR 5.000.000
7 2011 Distribusi Logam Berat Kadmium Pada
Spesies Ikan Baung (Hemibagrus
nemurus) dan Ikan Juaro (Pangasius
polyuranodon) di Sungai Siak
Mandiri -
8 2011 Pembangunan Superkapasitor
Menggunakan Elektroda Karbon
Dikti 49.000.000
9 2012 Kajian Potensi habitat Pengembangan
Danau dan Taman Burung di Tahura
Sultan Syarif Kasim II
Balitbang
Riau
89.000.000
10 2012 Studi Migrasi Senyawa Karbonil Dalam
Air Minum Kemasan PET
UR 5.000.000
11 2012 Analisis Parameter Fisika dan Kimia
Dalam Air Lindi di TPA Muara Fajar
Pekanbaru
UR 5.000.000
12 2013 Kualitas Sungai Petapahan Kecamatan
Gunung Kabupaten Kuantan Singingi
Toar
Mandiri -
13 2013 Uji Escherichia Coli dan Fluorida Air
Minum Bungkusan Plastik Pada Rumah
makan di Kecamatan Rumbai Pesisir
Pekanbaru
Mandiri -
D. Pengalaman Pengabdian Kepada Masyarakat dalam 5 Tahun Terakhir No Tahun Judul Pengabdian Kepada Masyarakat Pendanaan
Sumber* Jml (Juta Rp)
1 2009 Pelaksanaan Praktikum Kimia di SMAN
12 Pekanbaru
Mandiri -
2 2010 Pelatihan dan Pembinaan Siswa SMA
Bidang Kimia se Provinsi Riau Persiapan
Olimpiade Sains Tingkat Provinsi dan
Nasional
Pemprov
Riau
1.000.000
(honor)
3 2011 Pembimbingan padakegiatan magang
santri Teknologi, di Pertanian Madrasah
Aliyah Ummatan Wasathan, Kampar
Di
Kompos
IM UR
7.500.000
4 2011 Bimbingan Belajar Siswa SMA Kabupaten
Siak Kerjasama Secara Kelembagaan
Bidang Pendidikan TA 2011,
Pem Kab
Siak
2.000.000
(honor)
5 2012 Penyuluhan penyalahgunaan bahan DIPA-UR 3.000.000
-
55
tambahan makanan kepada para pedagang
makanan di Kecamatan Senapelan
Pekanbaru
6 2012 Prosedur pengurusan sertifikat Halal Dinas
Kesehatan
250.000
(honor)
7 2012 Prosedur pengurusan sertifikat Halal Dinas
Kesehatan
250.000
(honor)
8 2012 Prosedur sertifikat produk Halal DEPAG 750.000
(honor)
9 2012 Prosedur sertifikat produk Halal Dinas
Kesehatan
400.000
(honor)
10 2012 Sosialisasi sertifikat Halal LPPOM-
MUI
200.000
(honor)
E. Publikasi Artikel dalam Jurnal dalam 5 Tahun Terakhir No Judul Artikel Ilmiah Nama Jurnal Volume/
Nomor/ Tahun
1 Characterization of Alkanes, Hopanes, and
Polycyclic Aromatic Hydrocarbons (PAH)s in
Tar-balls Collected From the East Coast of
Peninsular Malaysia
Marine
Pollution
Bulletin
56 (2008)
2 Characterization, Distribution, Sources and
Origins of Aliphatic Hydro carbons from Surface
Sediment of Prai Strait, Penang, Malaysia: A
Wide Spread Anthropogenic Input
Environment
Asia
2 (2008)
3 Penyebaran Hidrokarbon Aromatik Polisiklik
Dari Residu Tumpahan Minyak yang Terdampar
di Pantai Nongsa, Batam
Jurnal Industri
Perkotaan
Volume
XIX/Februari
2010.ISSN
1410-3575
4 The History of Petroleum Pollution in Malaysia;
Urgent Need for Integrated Prevention
Approach
Journal
Internasional
Environment
Asia 3, 131-
142
special issue
(2010)
5 Aspek Lingkungan Sosial dan Potensi
Munculnya Perilaku Penambahan Boraks dalam
Proses Produksi Bakso Daging Sapi di Kota
Pekanbaru
Journal of
Environmental
Science Ilmu
Lingkungan
Volume 4 No. 2
September
2010
ISSN.1978-
5283, 128-138
6 Bioremediasi Limbah Cair Industri Tahu
Menggunakan Efektif Mikroorganisme (EM4)
Journal of
Environmental
Science Ilmu
Lingkungan
ISSN.1978-
5283, 148-153
(2010)
7 Penelitian Berbasis Lab: Remediasi Limbah
Industri Dengan Menggunakan Metode Adsorpsi
Laporan 2011
8 Distribusi Logam Berat Kadmium Pada Spesies
Ikan Baung (Hemibagrus nemurus) dan Ikan
Juaro (Pangasius polyuranodon) di Sungai Siak
Proceeding 2011
9 Pembangunan Superkapasitor Menggunakan Laporan Hibah 2011
-
56
Elektroda Karbon Bersaing
DP2M Dikti
10 Kajian Potensi habitat Pengembangan Danau dan
Taman Burung di Tahura Sultan Syarif Kasim II
Laporan 2012
11 Studi Migrasi Senyawa Karbonil Dalam Air
Minum Kemasan PET
Laporan
penelitian
2012
12 Analisis Parameter Fisika dan Kimia Dalam Air
Lindi di TPA Muara Fajar Pekanbaru
Laporan
Penelitian
2012
13 Kualitas Sungai Petapahan Kecamatan Gunung
Kabupaten Kuantan Singingi Toar
Jurnal Kajian
Lingkungan
Vol 1. No. 1
2013
14 Uji Escherichia Coli dan Fluorida Air Minum
Bungkusan Plastik Pada Rumah makan di
Kecamatan Rumbai Pesisir Pekanbaru
Jurnal Kajian
Lingkungan
Vol 1. No. 1
2013
F. Pemakalah Seminar Ilmiah (Oral Presentation) dalam 5 Tahun Terakhir No Nama Pertemuan Ilmiah/
Seminar
Judul Artikel Ilmiah Waktu dan
Tempat
1 Seminar Internasional Jepang-
Indonesia
The Scientific Exploration
and Sustainable Management
of PeatLand Resources in
Giam Siak Kecil-Bukit Batu
Biosphere Reserve, Riau
05 Agustus 2009
Pekanbaru
2 Seminar Nasional PTAIS Riau
Depag RI
Peningkatan Kemampuan
Pengelola Majlis Taklim
Perempuan Berbasis
Kerukunan, Ekonomi, dan
Lingkungan Hidup
Berperspektif Gender dan
Kearifan Lokal Provinsi Riau
30 Nop 01 Des
2009
3 Seminar dan Rapat Tahunan
BKS-PTN Wilayah Barat
Bidang MIPA Tahun 2009
08 Desember
2009
4 Seminar Nasional: Hizbut Tahrir
Indonesia
Membangun Kembali
Kejayaan Peradaban Islam
30 Mei 2010
5 Seminar Nasional Lingkungan
Hidup
Keanekaragaman Hayati ,
Masa Depan Bumi Kita
03 Juli 2010
6 The Organizing Committee of
the International Symposium
Scientific Exploration and
Sustainable Management of
Tropical Peatland
Ecosystem
20 Oktober 2010
7 Seminar Nasional HKI Seminar Nasional Ketua
Jurusan Kimia se Indonesia
17 Juni 2011
G. Karya Buku dalam 5 Tahun Terakhir No Judul Buku Tahun Jumlah
Halaman
Penerbit
1
2
-
57
H. Perolehan HKI dalam 5-10 Tahun Terakhir No Judul/Tema HKI Tahun Jenis Nomor P/ID
-
I. Pengalaman Merumuskan Kebijakan Publik/Rekayasa Sosial Lainnya dalam 5 Tahun Terakhir
No Judul/Tema/Jenis Rekayasa Sosial Lainnya
yang Telah Diterapkan
Tahun Tempat
Penerapan
Respon
Masyarakat
1 Perda Kebijakan tentang Halal (dalam
proses di DPRD)
2011 Prov. Riau Sangat
ditunggu
J. Penghargaan dalam 10 tahun terakhir (dari Pemerintah, Asosiasi atau Institusi lainnya)
No Jenis Penghargaan Institusi Pemberi Penghargaan Tahun
1 Satya Lencana 20 tahun Presiden RI 2012
2 Dosen Berprestasi Harapan 1 UR 2012
-
58
Appendix 6. Letter of Statement from Research Leader
-
59
Semua data yang saya isikan dan tercantum dalam biodata ini adalah benar dan dapat
dipertanggungjawabkan secara hukum.Apabila dikemudian hari ternyata dijumpai ketidak-
sesuaian dengan kenyataan, saya sanggup menerima sanksi.
Demikian biodata ini saya buat dengan sebenarnya untuk memenuhi salah satu persyaratan
dalam pengajuan Hibah Penelitian Kerjasama Luar Negeri dan Publikasi Internasional
Pekanbaru, 25Oktober 2014
DR. Saktioto, SSi M.Phil