optical calibration of water cherenkov detectors€¦ · a. pritchard university of liverpool 7 10v...
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Dr Adrian Pritchard [email protected]
On behalf of Universities of Liverpool, Warwick, Sheffield
Optical Calibration of Water
Cherenkov Detectors
Meeting, QMUL September 2016
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About Me
22/09/2016 A. Pritchard
University of Liverpool 2
• I am a post-doctoral research associate from the University of Liverpool, and have been working on Hyper-Kamiokande since October 2015, and Super-Kamiokande since April 2016
• I obtained my PhD from Liverpool in 2015, analysing B meson decays with the LHCb detector at CERN
• From jennifer-project.eu: “JENNIFER aims also to cross fertilize different communities: flavour and neutrino physicists…” – hopefully I will fit this model well by the end of this post-doc!
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• Goal: develop an optical calibration system to obtain a good understanding of the PMT response in Hyper-Kamiokande, to enable accurate determination of detector properties and water parameters
• This is crucial to allow HK to achieve the sensitivity required for a number of key physics analyses
• Inject light pulses of known emission time and intensity at several visible wavelengths using fibre coupled LEDs
• Multiple injection points will allow all PMTs to be illuminated and therefore allow a full calibration of both the time response and gain
Pulsed LED Calibration System
22/09/2016 A. Pritchard
University of Liverpool 3
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Pulsed LED Calibration System
22/09/2016 A. Pritchard
University of Liverpool 4
• Develop light source using fibre-coupled pulsed LED system
• Full calibration and monitoring requires pulses with: • Short (order of a few ns) pulse duration
• Well understood time profile
• Variable but well controlled intensity
• Good pulse to pulse stability
• Various LEDs with different wavelengths
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Operating Principle
22/09/2016 A. Pritchard
University of Liverpool 5
10V 25V
20ns trigger pulse
30ns trigger pulse
t = 0ns • No pulses • No current through LED • No light production
ANODE CATHODE
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Operating Principle
22/09/2016 A. Pritchard
University of Liverpool 6
10V 25V
20ns trigger pulse
30ns trigger pulse
t = t1ns (1ns typical) • Anode trigger pulse
begins • Forward current through
LED • Light production begins
CATHODE ANODE
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Operating Principle
22/09/2016 A. Pritchard
University of Liverpool 7
10V 25V
20ns trigger pulse
30ns trigger pulse
t = t2ns (5-15ns typical) • Cathode trigger pulse
begins • Reverse current through
LED, charge carriers swept out
• Light production ends
CATHODE ANODE
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Operating Principle
22/09/2016 A. Pritchard
University of Liverpool 8
10V 25V
20ns trigger pulse
30ns trigger pulse
t = t2+30ns • Cathode trigger pulse
ends • No current through LED • No light production
CATHODE ANODE
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Operating Principle
22/09/2016 A. Pritchard
University of Liverpool 9
t1 t2
Relative delay • Number of photons
varied by varying the relative delay time, t1-t2
• Pulse width
controlled by anode/cathode voltages
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22/09/2016 A. Pritchard
University of Liverpool 10
Operating Principle
• Photons per pulse controlled by the relative delay between the anode and cathode pulses
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22/09/2016 A. Pritchard
University of Liverpool 11
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22/09/2016 A. Pritchard
University of Liverpool 12
Board Version 1
Cathode MOSFET
LED coupler
Anode MOSFET
Fibre Bundle
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22/09/2016 A. Pritchard
University of Liverpool 13
• Generally good performance, pulse widths of <3ns at 100,000 photons/pulse
Results From Board Version 1.0
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22/09/2016 A. Pritchard
University of Liverpool 14
Results From Board Version 1.0
• Number of instabilities observed during board testing
• Long period (~20hr) run showed different instabilities in number of photons
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22/09/2016 A. Pritchard
University of Liverpool 15
Results From Board Version 1.0
• Observed some drift in the output over time
• We have established some temperature dependence of the LED output, explains this drift
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22/09/2016 A. Pritchard
University of Liverpool 16
• Also some variation in the photon output when powering off/on all lab kit
• Some of instability potentially due to precision of equipment
Results From Board Version 1.0
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22/09/2016 A. Pritchard
University of Liverpool 17
Board Version 2.0
• New board has been produced to try to solve some of the stability issues
• Principle is unchanged, but some components have been upgraded, and the MOSFETs have been moved closer together and to opposite sides of the board
• Preliminary results from first tests are shown on next slide, same tests as shown for previous board
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22/09/2016 A. Pritchard
University of Liverpool 18
Results From Board Version 2.0
• Initial results are very promising, but will require more testing before any conclusions can be reached
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22/09/2016 A. Pritchard
University of Liverpool 19
Testing Output Underwater
• We need to measure a number of important optical properties to fully optimise the eventual calibration system: • Opening angle of light from bare fibre underwater • Intensity profile across the output from the bare fibre • The same quantities when using diffusers at the end of the
fibre to control the light output
• To measure these properties, we have constructed a water tank in Liverpool to measure the underwater fibre output
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22/09/2016 A. Pritchard
University of Liverpool 20
Testing Output Underwater • Tank construction in
workshop in Liverpool (top)
• Tank installation in basement room before first testing
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22/09/2016 A. Pritchard
University of Liverpool 21
Initial Results From Tank
• Tank light tightness was confirmed
• First tests use a fibre output, fibre collection setup. Concept seen to be successful, will switch to a potted PMT for collection in future to improve efficiency
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22/09/2016 A. Pritchard
University of Liverpool 22
Future Testing
• To properly understand the system and its operation in HK, we ideally need some larger scale test facility
• We aim to produce and deploy a full scale prototype of one injection point to fully calibrate and assess the performance of the pulser system
• If only there were a pre-existing multi-kiloton Water Cherenkov detector where we could install and test the prototype…
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22/09/2016 A. Pritchard
University of Liverpool 23
Super-Kamiokande
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22/09/2016 A. Pritchard
University of Liverpool 24
SK Optical Calibration • Water absorption and scattering coefficients are extracted using a
laser calibration system
• Analysis to date has used only one vertical injector point
• There are also 5 horizontal injection points
• Also another top and one bottom injector points, both unused
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22/09/2016 A. Pritchard
University of Liverpool 25
SK Optical Calibration • We are aiming to produce a full working prototype and install it in
the redundant tank top injector point
• Opportunity to access the injectors during the SK tank opening ahead of Gd doping in 2018
• In the meantime, we are aiming to help out with the SK calibration work • Good to establish a working relationship with the group ahead
of installation, by performing a helpful analysis • Also good from a personal standpoint to gain experience of the
analysis required when we begin collecting data
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22/09/2016 A. Pritchard
University of Liverpool 26
SK Optical Calibration • Parameters are extracted by producing MC and comparing with
TOF corrected PMT charge distributions in 5 areas of the tank
• Initially 4, now 5, different wavelengths used
Plots from SK calibration paper: NIM A 737C (2015)
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22/09/2016 A. Pritchard
University of Liverpool 27
SK Optical Calibration • Current SK analysis only uses data from an injector on the tank top
• There is a known to be a potential z dependence of water quality,
but this is difficult to quantify using only vertical laser
• We are aiming to replicate the existing analysis, but using the 5 horizontal injectors instead • This should allow us to probe the depth dependence of the
absorption and scattering water parameters
• First step is to check the quality of the data and ensure there are no long time gaps, we examine total PMT hits/total charge to smooth out fluctuations in laser intensity
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22/09/2016 A. Pritchard
University of Liverpool 28
SK Optical Calibration Position B1 (Top of tank):
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22/09/2016 A. Pritchard
University of Liverpool 29
SK Optical Calibration Position B1 (Top of tank):
Large decrease in charge, then no data
This is well understood, injection fibre was
damaged. Switched to second fibre after ~1
year, problem was fixed
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22/09/2016 A. Pritchard
University of Liverpool 30
SK Optical Calibration Position B3 (Centre of tank):
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22/09/2016 A. Pritchard
University of Liverpool 31
SK Optical Calibration Position B3 (Centre of tank):
Large fluctuation in 473nm laser. This is also seen in plots on
water scattering monitoring page, some
hardware fault that was corrected
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22/09/2016 A. Pritchard
University of Liverpool 32
SK Optical Calibration Position B5 (Bottom of tank):
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22/09/2016 A. Pritchard
University of Liverpool 33
SK Optical Calibration
• Data seems to exist for all of the SK IV running period, with a couple of exceptions
• Some fluctuations are seen over the course of SK IV, some are understood, others are not
• Will need to try to understand the sources of these fluctuations, possible systematic uncertainties due to water quality, laser stability, etc
• Will then move on to examining scattered hit region of time of flight corrected charge distributions, and extracting water parameters through comparison with MC produced in SKDetSim
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22/09/2016 A. Pritchard
University of Liverpool 34
SK Optical Calibration
• Thanks to funding from JENNIFER, I have been able to establish a close link with the SK calibration group
• This work has been presented at HK calibration meetings in Kashiwa and London, and an SK meeting in Toyama
• I have also undertaken shifts in the mine at SK
• Will complete a secondment in Kamioka in November, undertaking shifts and attending the next SK collaboration meeting
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22/09/2016 A. Pritchard
University of Liverpool 35
Thank you!