X-Git-Url: https://git.ucc.asn.au/?p=matches%2Fhonours.git;a=blobdiff_plain;f=research%2FTCS%2F2012-09-27%2Freadme;h=43b78839acd034e83fe5176df1146b208b60c098;hp=695ca20b65c34d1186e6edf88e796967657d4f05;hb=1579d274d421613e82124a089e1f6884171947af;hpb=f1878eefc82b0c465c0062b89ef39fdb4926e8cb diff --git a/research/TCS/2012-09-27/readme b/research/TCS/2012-09-27/readme index 695ca20b..43b78839 100644 --- a/research/TCS/2012-09-27/readme +++ b/research/TCS/2012-09-27/readme @@ -30,7 +30,7 @@ Today (27th) # Heating Voltage (across power supply) = 1.537 Changes are negligable. => The surface has changed somehow over time - - Batteries of ammeter are also quite low though. Will replace and take new measurements. + - Batteries of ammeter are also quite low though. Will replace. - Curves now show 2 steep increases in current; 2 different surfaces in the beam? - Si was originally cleaned very well. Only 1 steep increase in graphs on 20th, although possibly part of a second @@ -48,18 +48,29 @@ Changes are negligable. => The surface has changed somehow over time - Very slight shift in curve, but still clearly the same shape - Keep gun properties the same; measure TCS of stainless steel to see what curve looks like + - Whilst rotating sample holder, note pattern of 5 spots in a line on the Si surface + - Preeeetty sure they weren't there before... wtf + - Immediately note: Order of magnitude less current for stainless steel - But, rotating the sample holder to ~300 deg = x10 current compared to 320 deg - Ie: More current when sample surface is not perpendicular to axis of gun - ??? Beam deflected horizontally by Earth's B field? - Put to 320 deg; use same orientation as for Si - Curve looks "unfocused"; no plateau + - Or maybe plateau is too far to the right to see on the scale 0-17V - First curve looks noisy. Subsequent curve looks smoother - Leave for 10 mins. Curves show trend; higher max, and further to the right (higher E) as time goes on - Test for response of Stainless steel sample to large steps in DAC level. - - Sample shows "charging problem" ie: exponential decay on steps + - Sample shows "charging problem" ie: exponential decay/rise on steps - Repeat for Si + - Same effect + - Will see if the effect still occurs when Au is evaporated onto the surface(s) + - Try and get rid of the "double peak" increase in Si by focusing gun. + - Analysis suggests Vd = -0.6 is better than previously used Vd = 0.38; only one steep increase this time + - Will use that from now on + - First: Take sweeps on Si, whilst having lunch - +- Evaporate Au onto Si + - pressure monitored in 1416.pressure.dat