Microscopy_&_Resolution.ppt
AnuragKashyap516087
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12 slides
Aug 15, 2023
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About This Presentation
Microscope details information
Slide Content
OU NanoLab/NSF NUE/Bumm & Johnson
Microscopy & Resolution
Magnification:Image size/Object size
Resolution:The fineness of detail that can be
distinguished in an image.
Highest Typical Resolution
Optical Microscope ~200 nm
Electron Microscope ~0.1 nm
Microscopy & Resolution
Magnification:Image size/Object size
Resolution:The fineness of detail that can be
distinguished in an image.
Highest Typical Resolution
Optical Microscope ~200 nm
Electron Microscope ~0.1 nm
OU NanoLab/NSF NUE/Bumm & Johnson
Definitions
•Acceptance angle θ
•Numerical Aperture
NA= n sinθ
•Rayleigh resolution criterion for a circular
aperture Δx= 0.61 λ/NA
θ
Definitions
•Acceptance angle θ
•Numerical Aperture
NA= n sinθ
•Rayleigh resolution criterion for a circular
aperture Δx= 0.61 λ/NA
θ
OU NanoLab/NSF NUE/Bumm & Johnson
OPTICAL MICROSCOPES
Image construction for a simple biconvex lens
OPTICAL MICROSCOPES
Image construction for a simple biconvex lens
OU NanoLab/NSF NUE/Bumm & Johnson
Rayleigh criterion for resolution
www.microscopy.fsu.edu ; www.imb-jena.de
See more interactive tutorialsat www.microscopy.fsu.edu
Numerical Aperature Resolution Rayleigh Criterion
Rayleigh criterion for resolution
www.microscopy.fsu.edu ; www.imb-jena.de
See more interactive tutorialsat www.microscopy.fsu.edu
Numerical Aperature Resolution Rayleigh Criterion
OU NanoLab/NSF NUE/Bumm & Johnson
Comparison
Bright-
Field
Dark-
Field
•Full
aperture
is
illuminated
•A central
obstruction blocks
the central cone.
Comparison
Bright-
Field
Dark-
Field
•Full
aperture
is
illuminated
•A central
obstruction blocks
the central cone.
OU NanoLab/NSF NUE/Bumm & Johnson
www.microscopy.fsu.edu
Dark-Field
Optical Microscopy
•A central obstruction
blocks the central cone.
•The sample is only
illuminated by the
marginal rays.
•These marginal rays must
be at angles too large for
the objective lens to
collect.
•Only light scattered by the
object is collected by the
lens.
www.microscopy.fsu.edu
Dark-Field
Optical Microscopy
•A central obstruction
blocks the central cone.
•The sample is only
illuminated by the
marginal rays.
•These marginal rays must
be at angles too large for
the objective lens to
collect.
•Only light scattered by the
object is collected by the
lens.
OU NanoLab/NSF NUE/Bumm & Johnson
www.microscopy.fsu.edu
Dark-Field
Optical
Microscopy
www.microscopy.fsu.edu
Dark-Field
Optical
Microscopy
OU NanoLab/NSF NUE/Bumm & Johnson
THE ELECTRON MICROSCOPE
The wavelength of the electron can be tuned by changing the
accelerating voltage.
de Broglie : λ= h/mv
λ: wavelength associated with the particle
h: Plank’s constant 6.63×10
-34
Js;
mv: momentum of the particle
m
e= 9.1×10
-31
kg; e= 1.6×10
-19
coulomb
P.E eV = ½mv
2
λ= h/(2meV) = 12.3/V (for Vin KV, λ in Å)
Vof 60 kV, λ = 0.05 ÅΔx~ 2.5 Å
Microscopes using electrons as illuminating radiation
TEM & SEM
THE ELECTRON MICROSCOPE
The wavelength of the electron can be tuned by changing the
accelerating voltage.
de Broglie : λ= h/mv
λ: wavelength associated with the particle
h: Plank’s constant 6.63×10
-34
Js;
mv: momentum of the particle
m
e= 9.1×10
-31
kg; e= 1.6×10
-19
coulomb
P.E eV = ½mv
2
λ= h/(2meV) = 12.3/V (for Vin KV, λ in Å)
Vof 60 kV, λ = 0.05 ÅΔx~ 2.5 Å
Microscopes using electrons as illuminating radiation
TEM & SEM
OU NanoLab/NSF NUE/Bumm & Johnson
OU NanoLab/NSF NUE/Bumm & Johnson
Components of the TEM
1.Electron Gun: Filament, Anode/Cathode
2.Condenser lens system and its apertures
3.Specimen chamber
4.Objective lens and apertures
5.Projective lens system and apertures
6.Correctional facilities (Chromatic, Spherical, Astigmatism)
7.Desk consol with CRTs and camera
Transformers: 20-100 kV; Vacuum pumps: 10
-6
–10
-10
Torr
Components of the TEM
1.Electron Gun: Filament, Anode/Cathode
2.Condenser lens system and its apertures
3.Specimen chamber
4.Objective lens and apertures
5.Projective lens system and apertures
6.Correctional facilities (Chromatic, Spherical, Astigmatism)
7.Desk consol with CRTs and camera
Transformers: 20-100 kV; Vacuum pumps: 10
-6
–10
-10
Torr
OU NanoLab/NSF NUE/Bumm & Johnson
Schematic of E Gun & EM lens
Magnification: 10,000 –100,000; Resolution: 1 -0.2 nm
www.udel.edu
Schematic of E Gun & EM lens
Magnification: 10,000 –100,000; Resolution: 1 -0.2 nm
www.udel.edu
OU NanoLab/NSF NUE/Bumm & Johnson
TEM IMAGES
www.udel.edu ; www.nano-lab. com ; www.thermo.com
TEM IMAGES
www.udel.edu ; www.nano-lab. com ; www.thermo.com
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