SEM Microscopy: Difference between revisions
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*Material for lenses (silicon steel? permeable iron/steel alloy? must be round stock) | *Material for lenses (silicon steel? permeable iron/steel alloy? must be round stock) | ||
*Electron Emitters (Acquired) | *Electron Emitters (Acquired) | ||
**HT power supply | **HT power supply (1-20kVDC, 1-5kVDC OK for now) | ||
***Flyback transformer with variable duty cycle (to vary output voltage) | ***Flyback transformer with variable duty cycle (to vary output voltage) and output capacitor to smooth waveform | ||
***Digital interface for varying the duty cycle | ***Digital interface for varying the duty cycle | ||
*Hose Clamps(Acquired) | *Hose Clamps(Acquired) | ||
*Webcam + White LED to mount inside of chamber | |||
Revision as of 16:38, 22 February 2011
Project Description
Lets build an SEM from scratch!
The field of SEM means big bucks. The cheapest SEM just came on the market a few years ago and costs $70,000 US. The accelerating voltage is limited to 5kV and the sample chamber is micro-miniature. On the other end of things a full sized SEM is going to run you millions of dollars. Let's laugh a lot and make our own unit with a generous sample chamber and whatever accelerating voltage that we want (20kV would be more than enough). -Jasper
Here's the recorded stream from Brandon's and Jasper's presentations (sorry for the crappy quality!):
http://www.ustream.tv/recorded/12763200
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Parts Needed
- Vacuum Chamber(Acquired)
- 23"x11"
- Aluminum
- Vacuum Pump, Dual-Stage Dual-Vane Rotary, Welch 1402, 10^-4 mTorr (Acquired)
- Belt Drive Vacuum Pump Oil
- Basic Hose for testing(Acquired)
- Fittings for feed-throughs
- 1/2" to ~1" fittings, 1"x1" desired "playroom" for filling with epoxies etc
- Large feedthrough flanges welded on eventually
- Vacuum hose, clear is ok, reddish is better (6 feet, 1" ID)
- Material for lenses (silicon steel? permeable iron/steel alloy? must be round stock)
- Electron Emitters (Acquired)
- HT power supply (1-20kVDC, 1-5kVDC OK for now)
- Flyback transformer with variable duty cycle (to vary output voltage) and output capacitor to smooth waveform
- Digital interface for varying the duty cycle
- HT power supply (1-20kVDC, 1-5kVDC OK for now)
- Hose Clamps(Acquired)
- Webcam + White LED to mount inside of chamber
Completed
Feb 20th
We created a vacuum with the Pump, Chamber, and Hose setup that we purchased the other day. The DV-6M thermocouple gauge is strange, but we managed to figure out how to get a useful reading out of it. It still has some weird parts that we need to figure out in order to correlate against a known vacuum level, but for now we have a relative baseline established of 198.207.0.51 Torr. Looks like we have a bit of leakage from the hose connections at the moment.
Feb 21st
Upon discovery of the leak using the water pour and vacuum gauge method, and an attempt was made to reseal the threads. Unfortunately a crack was discovered which caused the main valve (Swagelok Whitey Ball Valve SS 45S8) to shear off leaving half of the adapter fitting inside of the chamber and the other half in the valve.
Next Steps
- Fix the vacuum hose fitting which broke off and attempt to get a better vacuum
- Build permanent circuit and enclosure for driving the gauge heater to 20mA.
- Provide a digital readout of the thermocouple voltage as well as output the data onto a digital interface line for future incorporation.