Previous Logbook

22-11-2017

• Turned around drawing updates for a smaller TPC volume (slight reduction of radius), communicated the changes with the worksop
• More workshop communications and test fitting of components
• Hydraulic pump for external clamps is waiting on its power plug - has been ordered, cable has been identified
• Computing
  • Between Patrick and I, we figured out which copy of the DMTPC code is the most recent, turns out (somewhat naturally) that m3daq has the most recent versions of all the code except...
  • DmtpcControl, which is most recent on m3slow
  • We have now merged the two in an external source so that we can start correct version control
  • Identified some of the workings of the SQL database
• Several rounds of leak checking etc... here is the fun part

15-11-2017

• Complete DMTPC and HPTPC internal comparison drawings, for design consistancy
• Adriana and I spent a full day preparing/repairing HPTPCs feet, removing burring on the screw threads such that the feet can be put down.
• Learnt about being a contortionist
• Levelled the vessel and adjusted the height of the end cap such that it can be married up to the vessel
• Sealed vessel using screw clamps only
• -> Hydralic pump is 3 phase -> in the process of aquiring a plug and cable for it to get wired up
• -> outer hydralic line is the return (open) so for now that cut is less critical
• Worked on friday with the team to do final cleaning of flanges and sealing of vessel for pumpdown
• Friday pumped down (at 6pm) to approximately 600mbar -> pump overheat -> Suspected and confirmed from manual
• Monday, DMTPC slowcontrol and DAQ online for Will and Kulveer, not ideal locations and need to relocate the NIM crate to give cooling to the digitizers.
• Monday, completed pumpdown to 3x10^-2mbar by throttling the inlet of the pump and opening fully when at about 50mbar
• Ultimate pressure after an overnight pumping period 1.7x10^-2 mbar, roughly matches the pump spec or what is expected
• 3x10^-3 mbar l/s rate of rise from first test.
• 1.4x10^-3 mbar l/s rate of rise second test after an over night pumpdown.
• have attached Turbo from the one shooter camera - pump has not been used for a long period so needs to be 'dried/conditioned' cant reach full speed while isolated.
• Found documentation for RGA, will prepare to use it/give a tutorial. The system is a pumping stand with independant RGA so will need a little read-up.

08-11-2017

• Set a new personal best, passed 1,104,516,000s breathing in and out... (thank you for the cake yesterday!)
• Fixed a couple small bugs with rawAna on friday, does not require there to be triggers in order to export CCD images (weird logic mistake in one of the flags)
• Made a new Drawings page for DMTPC -> its a good repository and source of drawings
• There are a few different versions of the parts, although I have converted a batch of them into pdfs that i think are the latest/important ones
• We have 3d models of some of the parts, these have been incorporated into our DMTPC + HPTPC drawings
• A week of drawing and lab work planning (See Zac and Harrison)
• Rails have been smoothed (a little) and ready to be re-mounted
• Hydraulic pump is to be relocated on the windowsill, (to be done)
• Made a drawing of DMTPC Amp Assembly with rail mounts, inside the HPTPC profile for comparison DMTPC_in_HPTPC.pdf
• Made new rail designs for the support stand
• SupportStand_Drawingv1.pdf
• Machine Shop status
  • Machinest who works the CNC is back next week, lots of the prep work has already been done, (so lots of blocks have been cut etc) just the features need putting on them
  • Support stand parts have been pushed to the top of the list, so we can finish the stand and then start mounting other parts (when they come)
• HPTPC arrival video - sorry - no music, but... like and substribe to my channel (shameless plug) https://youtu.be/bcbzPKV3uCg
• Plan for the rest of the week is to prepare to close, we have i believe all the parts we need now, and can get going on it (Lifting hardware, lube for the legs... etc)

01-11-2017

• Prepared the lab for arrival of HPTPC, Involved taking apart DMTPC and making space for requipment.
• Latter part of last week was a bit of a disaster having to make two trips to London to see the immigration lawyer
• Got the vessel into the building! YAY, everyone knows what happened... it was an adventure.
• CLEANING! lots and lots of cleaning, the vessel was extremely dirty on the inside (and outside)
  • Two soap washes
  • Two water washes
  • 1 Alcohol wipe
• Put curtains back on clean tent (required cleaning also)
• re-plummbed the hydrolic lines on the vessel, had to tighten a few other fitting
• Made inventory list of parts we recieved from Cryovac
• Notes
  • All gas regulators have TIPOC inlet fittings, we will have to change this for relivent DIN/CGA fittings for use in the lab
  • Captured o-ring kf fittings are good for 10bar, note, we appear to have no spares! Though we do have enough.
  • Vacuum valve... if that is rated to 5 bar id be surprised. Looks like some random valve they found somewhere in the bushes. Lesker Part number is SA0150MVQF, technically rated between atmosphere and Vacuum. Internal construction is probably capable of holding back 5 bar, but... yeah... dodgy.
  • Chamber has 3 missing caps - they are plastic caps that have been taped on. All are KF40s, I think these were the ones used to pressure test with the HV feedthroughs.
  • We will probably want to put a steel brush pipe cleaner through the water drain and air release valves (top and bottom penetrations on the vessel) Both show corrosion and are generally hard to clean.

25-10-2017

• Lots of meetings with Sam / Cryovac, good news is that the vessel should 'should' be here today, keep fingers crossed.
  • We aquired quotes from kingsbury for cranage in preparation for our own shipping options
  • Speciality Spanish Transport, quote was lowered and we accepted
  • Southern Cranes and Access gave an insane quote, I think this was in response to bad communications between SST and cryovac and themselves which basically involved SST demanding a quote without giving them any information about the Job. So... knowing or believing they had no options, they quoted £1500 ish... which Cryovac (as much as they are not in a position to complain really) identified as crazy.
  • We provided Cryovac with our quote from Kingsbury
  • Cryovac contracted Kingsbury
• Got my simple diagnoistic tool working on m3daq
  • I made a sym link into /home/dmatter/bin (i think, i cant check, m3daq is offline for the delivery)
  • This means the program can be used from any command line location
  • Invoked by rawAna.exe - if given with no options it will print the usage directions and flags
  • For looking quickly at a root file and rumping the number of events/triggers point rawAna.exe at a raw root file with no arguments
  • -d dumps waveforms to screen ->really fast, much better than using a CINT macro
  • -c dumps CCD images
  • -d -c dumps both to screen
  • It can be used for offline analysis, currently it will do baseline cuts, peak time cuts, find peakheights for the charge channels and output 4 histograms. baseline sigma cut and time cut can be added using appropriate flags (see useage)
• Wrote small script for exporting fits file using the DMTPC image library for Kulveer to use
• Lab cleanup, tidy with the team, My task was mostly disconnecting and tidying away all cables and moving the DAQ computer and electronics rack.
• Shoring props are in place, clean tent has not fallen over... yet

18-10-2017

• Practiced some mesh stretching, (mostly a helper with Zack and the team)
  • Lots of intersting things learnt
• Started writing a tool for doing quick diagnostics on data files from DMTPC,
  • Very very fast at dumping waveforms to screen, which is initially the most useful use of it, to check what triggers look like
  • Optionally can dump CCD images along side the waveforms. So we can visually pair up waveforms and Events
  • Slowly updating it to perform baseline cuts given a list of files and generally have it do all of what we usually do in Macros
  • Motivation... CINT IS BAD AND SLOOOOW
  • Already this code appears much faster
• TPC rail mount designs -> Not got a full assembly drawing yet, though have had a few communications with machine ship, the rails are advancing and hopefully should be out soon.
• Reviewing Drawings with Zack.
• Chamber Shipping Drama... mostly Zack doing the waving of sticks at Sam, Adriana speaking to various spanish transport companies.
• I have spoken to the company wh lifted the DMTPC vessel, they are coming tomorrow to scope the area and will quote us for a UK lift.
• 

11-10-2017

• Wrote a "How too and getting started page" for people to use to do basic dmtpc anaylsis etc it is located here
• Took data sample for purpose of CR-112 calibration, See Adriana's analysis
• Discovered Trigger issues with the DAQ
  • Appears to ignore trigger and pulse polarity settings (at least for the charge sensitive pre-amp)
  • Settings in the hptpc_neutron template (copied from one of the ones that shipped with the setup) has triggers on charge channels effectively disabled.
  • Thus it appears we are triggering only when we have a signal on the fast amplifers, ONLY negative going
  • Need to investigate this, possibility of hard coding or bug in the DAQ initialisation.
• Helped (Tiny bit) with the Ring Turning -> See Zacks page
• Helped (Tiny Tiny bit) with putting clean tent curtains up
• Created a 50ohm terminator for SHV connectors for grounding the anodes
• Grounded All anodes and ground meshes
• Ramped voltage - breakdown reoccurs at same voltages (630-650v)
• Cycled the gas, first pumping down to ~3x10^-6 mbar and then back to 40mbar
• Channels now ramp to 670 without sparking, sparking comes in closer to 680V now
• Cathode performance is identical, sparking occurs at 3200V
• Slowly ramped up all channels to 680V, sparking is moderate, though approximately 0.1Hz so we can get a few events between sparks
• Need to write some error handling into my code, currently segfaults if the first event has no triggers... Thus if the first event is after a spark, it sometimes contains zero triggers.
• Going to migrate to Linappserv and make a set of compiled programs to improve analysis speed
• Have 3 data samples in different configurations for analysis

04-10-2017

• Worked with Adriana on developing the analysis to accept multiple raw files
• Can identify each peak in the spectrum based upon behavour of the CSP channel.
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• 
• 
• All this is within a single run, a spark appears to trigger the change between each state. Looking through later files, the behavour returns to normal and then back to bad again
• Applying peak time cut effectively removes this bad behavour from the files.
• See Adriana's logbook for final plot showing combined files with baseline and time peak time cuts (Also preliminary gain)
• Shakedown of Amplifiers was good, using the test input, scope traces looked identical for all channels.
• 3 instances of bad grounding on the boards which has now been fixed. Extra insulation on the inside of the cases has been added.
• Vessel backfilled with CF4 to 40mbar(30 torr), pressure reached before backfill was 8.44x10^-7 mbar
• Drift field achieved and stable 3200V (compared to 2700V previously) Getting better can at do 100V/cm field at least.
• Anode voltage Bottom left starts to spark at approx 0.5-1Hz when at a voltage of 650V, 50V short of where I usually try and take data to see how everything is behaving.
• 

27-09-2017

• Baseline Analysis,
  • Initially performed my own baseline extraction in order to learn a few things about the raw TFile structure
  • Rewrote the same analysis in the space of a few hours using the dmtpc framework
• Process is to,
  • Extract the baseline from every trace and push it into a histogram for each channel
  • Fit gaussian/find RMT and define a cut of accepting only waveforms that have a baseline within 8sigma
  • Remove whole events that do not make the cut, Replot and refit.
• 
• Pulse height analysis
  • dmtpc framework is mostly defined in Pulse.hh (for anyone who is interested)
  • The getPeak() function extracts the peak and subtracts for baseline offset
  • Further acceptance can be performed based on getPeakTime()
  • Code (and a tutorial on what each part of my macro is doing what has been passed down to Adriana for further modification/development (getPeakTime() cuts which shouldn't take much development
  • Currently my analysis works only one a single file though it should be realitively simple to make it work on a string of files.
  • Quite slow... might concider a compiled version rather than a macro, shakes fist at CINT
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• Friday - Adriana and I did a full vacuum system and DMTPC operations tutorial,
  • Made modification to HV feedthrough, changing the connection type to a push on one
  • Applied Kapton insulation over any bare wire, the push on connector and length of the pin.
  • Proved the HV feedthrough operates up to the full capacity of the supply (8kV) in Nitrogen, no sparks or issues
  • Evacuuated vessel
• Started Testing performance of the Cremat boards, Initially tests look like boards are healthy, but we have devised a full set of tests to be performed in order to check board health and operation of different Amps in each
• Should be completed in next couple of days, if all checks are good we move onto the grounding and backfill the detector for sample runs