Presentation is loading. Please wait.

Presentation is loading. Please wait.

Scanning Electron Microscope (SEM)

Similar presentations


Presentation on theme: "Scanning Electron Microscope (SEM)"— Presentation transcript:

1 Scanning Electron Microscope (SEM)
Major components: Vacuum system Electron beam generation system Electron beam manipulation system Beam specimen interaction system Detection system Signal processing system Display and recording system SEM operation principles: SEM introduction

2 Vacuum system Low vacuum pump (<10-3 Torr) (remove 99.99% of air), high vacuum pump(>10-3 Torr) SEM operation need 10-4 to 10-6 Torr

3 E beam generation Three components:
1) cathode (filament or field emission) 2) grid cap that control the flow of electrons 3) anode that attracts and accelerates electrons Voltage ranges from 0.1 to 40 Kv, (10kV the most common for biological specimen) the higher the voltage the better the resoution (but greater heat will be generated on the specimen) On/off switch for high voltage (HV) Beam current (the flow of electrons that hit a sample), controlled by bias voltage between filament and grip cap, Increasing beam current results in deeper penetration of electron and a larger diameter spot) Filament current control (adjustment of current filament, providing necessary heating current to filament) Filed emission: advantages: cool cathode, emitted beam is smaller in diameter (better resolution), longer life time disadvantages: higher vacuum need (~10-7 Torr), cleaner microscope needed, not many x-rays generated (due to low beam currents and small beam diameters)

4 E beam manipulation E-gun is controlled by electrostatic field, while the rest of SEM is controlled by magnetic lenses. Electromagnetic lenses: - condenser lenses: reduce spot size spherical aberration limit resolution - correct astigmatism (non-circular beam spot), due to beam formed by filament is elliptical, dirt in column, beam distorted on the aperture using stigmator (control strength and azimuth) - correct alignment - two sets of magnetic coils (raster coils) that move the seam scanning in the X and Y direction - magnification: ratio of dimension of CRT to dimension of the area being scanned two ways of magnification adjustments: 1) change scanned area of the specimen 2) adjust focal point of the beam and working distance (move Z-axis to bring sample to focal point) Aperture: a round hole that control the passing through of scattered electrons - small aperture for high resolution - big aperture for low resolution with more electrons needed

5 Beam interaction Backscattered electrons Secondary electrons X-rays
Cathode Luminescence Specimen current Transmitted electrons

6

7


Download ppt "Scanning Electron Microscope (SEM)"

Similar presentations


Ads by Google