mossbauer spectroscopy scott powers molecular spectroscopy presentation 1
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Mossbauer Spectroscopy
Scott PowersMolecular Spectroscopy Presentation
1
Adolf Mossbauer
• Born on January 31, 1929
• Born in Munich, Germany
• Discovered "Mossbauer Effect"
• Won Nobel Prize in 1961 in physics
• Passed away in 2011
http://www.nndb.com/people/824/000099527/rudolf-mossbauer-1.jpg2
"Mossbauer Effect"• Based on discovery of recoilless gamma ray emission and absorption
• When gamma ray is emitted a nuclei will recoil in conservation of momentum
• Not useful for Mossbauer spectroscopy
http://www.rsc.org/membership/networking/interestgroups/mossbauerspect/intropart1.asp
3
Law of Conservation of Momentum
E0 = nuclear transition energyM = mass of emitting particleC = speed of lightER = the energy of the recoil.
4
Mossbauer's Breakthrough
• Atoms placed in solid matrix have much greater effective mass
• Recoil mass of nuclei becomes recoil mass of entire matrix
http://www.rsc.org/membership/networking/interestgroups/mossbauerspect/intropart1.asp
5
Mossbauer's Breakthrough
• Phonons emitted from lattice from slight vibrational energy• No recoil energy lost• Only form of energy lost during gamma ray emission
• If gamma ray energy is small enough entire systems recoils
• Due to not being enough energy to cause vibration in lattice
• This is a recoil free event achieving resonance
6
• Random thermal motion of nuclei creates spread of gamma radiation
• Mossbauer realized that Doppler effect could be used
• Achieve overlap that results in resonance
• Create a spread in the energy of emitted gamma ray
• Create data that was on a workable scale
Mossbauer's Breakthrough
7
"Mossbauer Effect"
• The resonance is not observed if recoil of nuclei occurs
• Conservation of momentum induces recoil of nuclei
8
"Mossbauer Effect"
• How does it work• Nuclei in atoms undergo many energy level transitions
• Changes occur due to emission and absorption of a gamma ray
• Energy levels are determined by the nuclei's surrounding environment
• Observed using nuclear resonance fluorescence • Special technique used to gauge distances between chromophores • Only works when separation distance is less than 10nm
9
Diagram of Vibrational Energy Levels
• En represents ground state energy
• En+1 represents the next highest energy
• ER represents recoil energy
• The first example shows a event resulting in no resonance
• The second examples shows an event resulting in resonance 10
"Mossbauer Effect"
http://www.rsc.org/images/simple_spectrum_tcm18-12013.gif
• Gamma ray emission produces signals
• Certain states with certain energies
• These energies have phonons of specific velocities
• These signals can be plotted • Velocity of emitted rays• Time elapsed
11
Question
• Why is it normal behavior for an atom to recoil in the event of gamma emission?
• How was this overcome?
12
"Mossbauer Effect"
• Two possibilities exist for recoil event based on the energy• Recoil energy<energy of nuclear transitions gives no resonance• Recoil energy>energy of nuclear transitions gives resonance
• Resonance achieved by removing loss of the recoil energy
13
Circumstances of Resonance
• Top figure shows an example of a nucleus that recoils as a result of gamma ray emission
• Bottom figure shows an example of a nucleus that does not recoil as a result of gamma ray emission• Resonance results
http://www.rsc.org/membership/networking/interestgroups/mossbauerspect/intropart1.asp
14
Circumstances of Resonance
• What does this mean• With the use of the Doppler effect the wavelength of the source gamma rays
can be tuned• When this wavelength is the same as the wavelength of emitted gamma ray
resonance is achieved
http://www.cmp.liv.ac.uk/shrike/mphys/chap3.html
15
Question
• What type of energy levels are effected by gamma emission?
16
Where do the Gamma Rays Come From?
• Based from the original discovery that 57Co decomposes readily to 57Fe
• 57Fe is also unstable and further decomposes• Gives off a gamma ray as well as some other types of energies
http://serc.carleton.edu/research_education/geochemsheets/techniques/mossbauer.html17
Circumstances of Resonance • P is electron density
• ED is the variable chosen to describe the spread of the gamma ray energy
• For resonance to occur overlap of two ED values for two nuclei must occur
• This overlap is generally very small
http://www.rsc.org/Membership/Networking/InterestGroups/MossbauerSpect/Intropart1.asp18
Gamma Rays
http://upload.wikimedia.org/wikipedia/commons/thumb/c/c2/Gamma_Decay.svg/2000px-Gamma_Decay.svg.png
• Emission of energy
• Form of light
• Form of energy
• Byproduct of radioactivity
• Not a "particle"
19
Gamma Rays
• Interesting challenge faced when dealing with gamma rays
• A gamma ray is extremely high energy
• A gamma ray is small wavelength
http://chandra.harvard.edu/graphics/resources/illustrations/em_spectrum2.jpg
20
Challenge of Gamma Rays
• Cannot be observed like normal light• Wavelength is on the order of magnitude to penetrate nuclei of atom
• Has no mass allowing for specific change in atom• Allows an atom to decay from high energy state to lower, stable energy state• Allows for atomic decay without loss of mass
http://www.pbs.org/wgbh/nova/gamma/spec_gamma.html21
Energy Loss in Nuclei of Atom
https://classconnection.s3.amazonaws.com/799/flashcards/1528799/png/gamma_ray_emission1355022930521.png
22
Energy Diagram of Gamma Decay
• Initial energy change and decay from 57Co to 57Fe
• From 5/2 to 1/2 gives no gamma emission
• From 5/2 to3/2 lead to further transition to 1/2
• Transition from 3/2 to 1/2 gives beta emission
23
Question
• What is so significant about the wavelength of a gamma ray?
24
Mossbauer Spectroscopy in Physics and Chemistry
• Used to further pursue the nature of energy states in nuclei
• Measure changes in chemical environment of nuclei
• Monitor materials during phase changes
• Monitor chemical reactions
• Determine structures of molecules25
Mossbauer Spectroscopy in Biology
• Used In Cancer treatments
• Used to analyze red blood cells
• Test environmental effects of human body
• Can analyze protein structures • Help in function determinations
26
Mossbauer Spectroscopy in Biology
• Used in combination with other data to obtain chemical information about proteins
27
Mossbauer Spectroscopy in Mineralogy and Metallurgy
• Can be used to determine metal samples• Determine crystal structures• Molecular arrangements• Chemical compositions
• Used to analyze different mineral samples• Determine different crystal structures• Determine compositions• Analyze intergalactic samples for unordinary behaviors
28
Mossbauer Spectroscopy in Space
• Used on Mars
• Rovers have miniature mossbauer spectrometers
http://www.medc.dicp.ac.cn/Mesite/images/Klingelhofer2.gif29
Question
Why is it important for the sample to be in solid or crystalline state?
30
What of Usefulness is Observed
• Elimination of recoil leaves scientists with hyperfine interactions
• Types of major interactions• Isomer Shift• Quadrupole Splitting• Magnetic Splitting
• Hyperfine Interactions• These are generally very small• These hyperfine interactions are what are studied to obtain information
31
What of Usefulness is Observed
• Example of each kind of shift
• Energy diagrams
• Spectral splitting
32
Isomer Shift
• Occurs when one nuclear isomer replaces another
• Provides important information about nuclear structure• Provides information about the l quantum number of a sample
• Affected by the charge density of s-electrons• Closest to nuclei• Provide most shielding
• Can be slightly affected by s,p,d, and f electrons 33
Isomer Shifts
• Interactions between volume of nuclei and the charge density of s-electrons• Determine valency states, ligand bonding states, and electron shielding• Leads to monopole interaction changing nuclear energy levels• Differences in the environment between source and detector produce• Shifts in resonance energies• Not directly measurable so measured relative to a known absorption
shift• Spectrum shifts either positively or negatively depending on s-electron
density centroid
34
Isomer Shift
• The isomer shift shows a slight elevation in the energy of the ground and excited states
• Notice there is no energy level splitting occurring in an isomer shift
• Greater s-electron density gives greater shift
35
Isomer Shift
http://article.sapub.org/image/10.5923.j.ajcmp.20130302.01_004.gif
• General form of an isomer shift
• Single peak
• Slightly shifted from zero
• Can be positive or negative
36
Question
• How is the Doppler effect used in Mossbauer spectrscopy?
37
Quadrupole Splitting
• Induced by electric quadrupole moment of the nuclei and change in the electric field due to an electron interactions
• Gives information about charge symmetry around nuclei
• Nuclear energy level splitting due to symmetrical electric field
• Electrons with l>.5 have non-spherical charge distribution and produce a nuclear quadripole moment
38
Quadrupole Splitting• Shows two samples
• Both show quadrupole splitting
• Show how similar structures give similar signals
39
Calculating Energy Difference in Doublets
• Equation to calculate the energy difference between quadrupole shifts
40
Quadrupole Splitting
• Equation used to calculate electric field gradient
• Relation of electric field gradient to splitting of energy levels
41
Hamiltonian for Quadrupole Splitting
• Interaction between nuclear moment and electric field gradient
42
Question
Why is the Doppler effect important to Mössbauer spectroscopy
43
Magnetic Splitting
• In presence of a magnetic field
• This magnetic field is often called the hyperfine field
• Nuclear spin moment feels a dipole interaction through Zeeman splitting
• Zeeman splitting• Atomic energy levels are split into a larger number of energy levels
• Magnetic field applied to split energy levels• Spectral lines are split along with atomic energy levels
44
Zeeman Effect
• Spectral lines that are normally degenerate become differentiable• Observable splitting of spectral lines• Results from external magnetic field
http://hyperphysics.phy-astr.gsu.edu/hbase/quantum/zeeman.html45
Magnetic Splitting
http://ej.iop.org/images/0953-8984/24/15/156001/Full/cm418558f6_online.jpg
• As temperature increases lines increase
• Shows at higher temperature splitting is different
• Higher temperature leads to different shifts
46
Magnetic Splitting Quantitatively
• Magnetic fields split one quadrupole shift into 2l+1 magnetic shifts
• Different aspects of magnetism in species can be analyzed
• Beff = (Bcontact + Borbital + Bdipolar) + Bapplied
• Important magnetic information can be obtained
47
Putting These Shifts Together
• Figure to the right shows spectral examples of
• Blue shows just an isomer shift
• Red is Isomer shift with quadripole splitting
• Green shows the hyperfine interactions
48
Simple Explanation of Spectra
49
Question
• What type of peak is produced from the three types interactions?
50
Instrumentation of a Mossbauer Spectrometer
• Possible arrangements of instrumentation
• Mossbauer Drive• Used to move the source relative to sample
• 57Co Source• Source of gamma ray emission
• Collimator• Used to narrow gamma rays
http://serc.carleton.edu/research_education/geochemsheets/techniques/mossbauer.html
51
Instrumentation
• Sample
• Contains the material being analyzed• Must be in solid phase• Must be in crystalline structure• Usually requires a large amount of sample• Applied as a thin layer on sample holder and irridatiated
52
Instrumentation
• Detector
• Choice of detector depends of gamma ray energies• Cannot be seen using traditional examination methods of electromagnetic
radiation• Observe affect of gamma rays on a material that absorbs them• Resonance detectors• Distance and angle of detector is crucial to Mossbauer spectroscopy
53
Instrumentation
• Detector
• Two types
• Gas filled detector
• Scintillation detector
54
Gas Filled Detector
• Sensitive volume of gas between two electrodes• Not often used for Mossbauer spectroscopy
http://www.lanl.gov/orgs/n/n1/panda/00326398.pdf55
Scintillation Detectors
• Sensitive material is luminescent material
• Gamma rays interact with the luminescent material
• Gamma rays are detected by an optical detector
• Used in Mossbauer spectroscopy
http://www.lanl.gov/orgs/n/n1/panda/00326398.pdf
56
Scintillation Detectors
57
The Chemistry Observed From Spectra
http://pecbip2.univ-lemans.fr/webibame/Photos/Spin3.JPG
• Prominent quadripole• No charge symmetry
• Temperature variation• Spreads peaks• Shows change
58
Rearrangement from Temperature Change
http://www.rsc.org/Membership/Networking/InterestGroups/MossbauerSpect/part3.asp
• Simply show how at higher temperatures some interactions change
• Higher temperatures gives loss of quadupole
59
Rearrangement from Temperature
http://www.frontiersin.org/files/Articles/19486/fmicb-03-00118-r2/image_m/fmicb-03-00118-g008.jpg
• Simply show how temperature can affect chemical environment
• Quadrupole and magnetic interaction occur at lower temperatures
60
Example of Mossbauer Spectra
• Sample Spectra
• Two iron complex
• Isomer shift
• Quadrupole
• Magnetic Splitting
http://www.icame2013opatija.com/system/image/71/Bill.jpg
61
Example of Mossbauer Spectra
• Shows patterns for atoms in different locations
• Isomer shift
• Quarupole
• Symmetrical charge distribution
http://www.chem.s.u-tokyo.ac.jp/users/chemreact/image/publication/fig_2011_07.jpg
62
Example of Mossbauer Spectra
• Isomer shift
• Quadrupole splitting
• Magnetic splitting
http://www.chem.s.u-tokyo.ac.jp/users/chemreact/image/publication/fig_2007_03.gif63
Example Mossbauer Spectra
• Isomer Shift
• Quadrupole splitting
• Symmetric charge distribution
64
Example of Mossbauer Spectra
http://onlinelibrary.wiley.com/store/10.1002/chem.201002060/asset/image_m/mcontent.gif?v=1&s=d2bd6f4dee56f1763a3886db5fb5c8666b2c189d
• Color coded to show spectra of each atom
• Notice all display similar shifts
65
Question
• What device is used to focus the gamma radiation between the source and sample?
66
Elements That Display Mossbauer Effect
http://chemwiki.ucdavis.edu/Physical_Chemistry/Spectroscopy/Mössbauer_Spectroscopy67
Elements That Display Mossbauer Effect
• Requirements
• Excited state be of relatively low energy
• Small change of energy between ground and excited state
• Too large a change of energy results in no resonant emission
• Relatively long lasting life of excited state
68
Drawbacks of Mossbauer Spectroscopy
• Must be in solid crystalline structure
• Minute hyperfine interactions• Overcome with the use of Doppler Effect
• Major limitation is that it is a “bulk” technique• Often times large amounts of sample are needed for analysis• Recent improvements in electronics and detectors are helping to overcome
69
Conclusions
• Wide application across multiple scientific disciplines• Relatively cheap method• Relatively fast method• Give valuable information on chemical environment within molecule• Isomer Shifts• Quadrupole splitting• Magnetic splitting
70
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