basic optics : microlithographymyplace.frontier.com/~stevebrainerd1/photolithography/week … · 1....
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9/11/2004 Brainerd/photoclass/ECE580/Optics/Optics4
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Electromagnetic Radiation• Polarization: Linear, Circular, Elliptical• Ordinary and extraordinary rays• Polarization by reflection: Brewster angle• Polarization by Dichroism• Double refraction (Birefringence)• Wave Plates: 1/4 and 1/2 wave• Microlithographic applications
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Basic Optics : MicrolithographyOptics Part 4: Polarization
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Properties of light can be subdivided as:
• Geometrical Optics:• Rectilinear propagation: Light travels in straight lines until interaction with another
medium, barrier or gravitational field• Finite Speed C• Reflection• Refraction• Dispersion
• Wave Optics:• Electromagnetic Properties• Diffraction• Interference• Polarization• Double refraction or Birefringence
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Basic Optics : MicrolithographyOptics Part 4: Polarization
We know that light has a wave nature from the phenomena of diffraction and interference, but we know nothing about the orientation of this wave motion (vibrations).
EM waves oscillations are transverse (perpendicular to the direction of motion). The electric and magnetic waves are perpendicular to the direction of motion. These vibrations are confined to the wavefront!
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• EM Polarization
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Unpolarized Light can: Electric waves will vibrate at all angles at random. Represented as the following diagram as viewed straight on:
• To Simplify this unpolarized light is represented by 2 planes of vibration at right angles of equal amplitude.
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarized Light can: Electric waves will vibrate in one plane. Represented as the following diagram as viewed straight on:
• Linear Polarized light is represented by 1 planes of vibration either vertical or horizontal
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarization: Unpolarized
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarized Light: Human eye cannot see polarized light without aids. Some insects can see polarized light, which they use to navigate.
• Linear and circularly polarized light
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarization: Linear
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarization: Circular
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Basic Optics : MicrolithographyOptics Part 4: Polarization
http://abalone.cwru.edu/tutorial/enhanced/files/lc/light/light.htm
• Polarization: Linear: If two polarizers are set up in series so that their optical axes are parallel, light passes through both. However, if the axes are set up 90 degrees apart (crossed), the polarized light from the first is extinguished by the second. As the angle rotates from 0 to 90 degrees, the amount of light that is transmitted decreases.
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Basic Optics : MicrolithographyOptics Part 4: Polarization
http://abalone.cwru.edu/tutorial/enhanced/files/lc/light/light.htm
• Polarization: Linear:Wire Grid: Transmission axis is perpendicular to axis of wires.
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarization by Dichroism ( Selective absorption of one of the two orthogonal polarization components of the incident light) : Transmission axis is perpendicular to axis of “wires”. Polaroid H filters: Like Polaroid sun glasses. Similar to wire grid idea. A polyvinyl alcohol ( PVA) sheet is stretched to create long chain molecules. Iodine is absorbed by these long chains forming a “grid” of iodine. These iodine “wires” absorb light vibrating parallel to the molecule chains!
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarization: Linear Malus law
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarization: Linear polarized light: Malus law
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Ordinary and extraordinary rays:• o-ray (oordinary ray): polarized parallel to plane of
incidence. Also termed p-polarization.• e-ray (extraordinary ray): polarized perpendicular to plane
of incidence. Also termed s-polarization.
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Polarization by reflection: Brewster angle ( angle of incidence): Reflected light is linearly polarized when the angle of reflection + angle of refraction = 90o.
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Basic Optics : MicrolithographyOptics Part 4: Polarization Birefringence
• Polarized light produced by Double refraction (Birefringence):
• This is exhibited in certain Anisotropiccrystals such as quartz, mica, sapphire, and calcite.
• Anisotropic :Crystals have regular repetitive arrays of atoms, but the atomic forces on the electron clouds are different in different directions. This results in optical properties that are dependent upon the direction of the rays propagation in the crystal. The refractive index is dependent on the rays plane of polarization .
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Basic Optics : MicrolithographyOptics Part 4: Polarization Birefringence
• Double refraction (Birefringence): Snells law deviates here as there are two refractive indices within the same material depending upon the plane of polarization.
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Basic Optics : Microlithography
Optics Part 4: Polarization Birefringence
• Birefringence: 3 conditions:• 1. Rays propagating parallel to the crystal’s optic axis have a
constant refractive index. Here the e-rays and o-rays have the same refractive index.
• 2. Rays propagating perpendicular to the crystal’s optic : The e-ray will travel faster than the o-ray due to it’s lower refractive index in this direction. Both rays will travel in the same direction. This results in a phase shift between the two rays!
• 3. Rays propagating 0 to 90o to the crystal’s optic : The o-ray will be refracted according to Snells Law. The e-ray will deviate from the o-ray due to the different refractive index in this direction. The e-ray will deviate away from the optic axis and out of the plane of incidence!
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Basic Optics : MicrolithographyOptics Part 4: Polarization Birefringence
• Double refraction (Birefringence)
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Basic Optics : MicrolithographyOptics Part 4: Polarization Birefringence
• Birefringence measured as:
∆n = (ne - no)
• (ne = index of refefctaion for the e-ray
• (no = index of refefctaion for the o-ray
• if ∆n is positive, crystal is positive uniaxial.
• if ∆n is negative, crystal is negative uniaxial.
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Basic Optics : MicrolithographyOptics Part 4: Polarization Birefringence
• Birefringence can also be measured as:
• L = phase shift difference between e-ray and o-ray.• Shift measured as nm/cm
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Basic Optics : MicrolithographyOptics Part 4: Polarization Birefringence Phase Shift
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Wave Plates: 1/4 and 1/2 wave: Birefringentcrystals cut to a specific thickness to achieve a desired e-ray and o-ray phase shift!
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Wave Plates: 1/2 wave (180o retarder) : e-ray and o-ray have a half wave( 180o) phase shift: rotates linearly polarized light 90o. ( thickness 2n+1 multiple of λ/2)
• Thickness = d= (2n+1) λ/(2*(ne-no))
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Wave Plates: 1/4 wave (90o retarder) : e-ray and o-ray have a quarter wave( 90o) phase shift: changes linearly polarized light to circular polarized light. ( thickness 2n+1 multiple of λ/4)
• Thickness = d= (2n+1)λ/(4*(ne-no))
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Wave Plates: 1/4 wave (90o retarder) : Specification example
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Basic Optics : MicrolithographyOptics Part 4: Polarization
• Microlithographic applications:• 1. ASML alignment system: Calcite plate to
split beam• 2. Quartz reticles have stress induced
birefringence, which can effect the SVGL scanner polarized illumination and the ASML alignment system. Can also effect PSMs!
• 3. Lens materials have stress induced birefringence, which can impact illumination!
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Optics Part 4: Polarizationreference: SVGL Micrascan III and III+ manual
SVGL MS III+ scanner: Dose Control: mj/cm2 = mw/cm2*(slit widthin mm)/(stage speed mm/sec) uses Maluslaw to change irradiance of illumination Uses Quartz beam splitter to polarize the light to reduce absorption ( light loss)
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Basic Optics : MicrolithographyOptics Part 4: Polarization
Projection printing: SVGL Micrascan scanner
¼ Wave plates
How does the light reflect off
the beam splitter once an d then on the
second path it is transmitted?
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Basic Optics : MicrolithographyOptics Part 4: Polarization
Projection printing: SVGL Micrascan scanner
1. Incoming light is linearly polarized (out of page)
2. The Beam splitter reflects this orientation.
3. It passes through the quarter waveplateconverted to circularly polarized light
4. Reflects off aspheric mirror (MAG).
5. This circularly polarized light passes through the quarter waveplate converted to linearly polarized light rotated 90o (parallel to page).
6. The beam splitter allows transmission of this linearly polarized light orientation
1
3
2 6
5
4
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Basic Optics : MicrolithographyOptics Part 4: Polarization
157nm issues Form Phil Ware Canon
Intrinsic Birefringence in CaF2
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Basic Optics : MicrolithographyOptics Part 4: Polarization
157nm issues Form Phil Ware Canon
Intrinsic Birefringence in CaF2 Birefringence dependent on crystalline orientation
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Basic Optics : MicrolithographyOptics Part 4: Polarization
157nm issues Form Phil Ware Canon
Intrinsic Birefringence in CaF2 Complex optical design!
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Basic Optics : MicrolithographyOptics Part 4: Polarization
157nm issues Form Phil Ware Canon
Intrinsic Birefringence in CaF2 Complex optical design!
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Basic Optics : MicrolithographyOptics Part 4: Polarization
157nm issues Form Phil Ware Canon
Intrinsic Birefringence in CaF2 Need to cut and polish lens on
specific crystalline axis