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Summer Student Presentation

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BPW34 photosensitive from 400nm to 1100nm (BPW34F: 950nm) applications: IR remote controls ... photosensitive area. BPW34. BPW34F. Summer Student Presentation ... – PowerPoint PPT presentation

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Title: Summer Student Presentation


1
Summer Student Presentation
  • Radiation Monitoring
  • with commercial
  • p-i-n diodes
  • BPW34F
  • Summer Student Project of Kim Temming
  • Supervisors Michael Moll
  • Maurice Glaser

2
Outline
  • purpose of my project
  • diode BPW34F / BPW 34
  • how to measure radiation with this diodes?
  • history of my measurements
  • irradiations
  • first setup
  • measurements / results
  • problems
  • new setup
  • measurements
  • first results
  • problems
  • first conclusions
  • outlook

3
Purpose of my Project
  • investigate the possibility to use commercial
    BPW 34 p-i-n
  • diodes as dosimeters for LHC experiments and
    irradiation
  • facilities
  • advantages
  • commercial product low costs (1.60 )
  • robust and easy to handle
  • large fluence range (1012 1015 p/cm2)
  • measuring NIEL (displacement damage)
  • disadvantages
  • needs qualifying
  • temperature fluence dependence
  • annealing
  • readout scheme
  • commercial product (no influence on production)

4
Diode BPW34F / BPW34
  • commercial SI-pin-diode / cheap
  • BPW34 photosensitive from 400nm to 1100nm
  • (BPW34F 950nm)
  • applications
  • IR remote controls
  • photointerruptors
  • control and drive circuits

BPW34
-
photosensitive area

BPW34F
5
How to measure radiation?
  • increase of voltage with fluence for constant
    current when biased in forward direction

6
My Work Irradiations
  • 102 diodes were irradiated with 24 GeV/c PS
    proton beam
  • 50 BPW34F from USA
  • 1.0 E15, 0.5 E14, 0.3 E14, 1.0 E14, 0.5 E13, 0.3
    E13,
  • 1.0 E13, 0.5 E12, 0.3 E12, 1.0 E12 (all in
    p/cm2)
  • 22 BPW34F from MALAYSIA
  • 1.0 E15 ppcm2, 1.0 E14 p/cm2
  • BPW34 Siemens, BPW34 Osram and BPW34FS
  • each 5 pieces 1.0 E13 p/cm2
  • each 5 pieces 1.0 E14 p/cm2
  • irradiations successful in
  • limits of 20 discrepancies
  • to wanted fluence
  • (ca. 8 errors on values)

7
First Setup
  • aluminium box / completely dark
  • (diodes are sensitive to daylight!)
  • Keithley 2400
  • set current / read voltage
  • sensor for temperature
  • inside box / 2 cm beside diode
  • sensitivity 0.1 degree celsius
  • labview program
  • option for constant current
  • option for pulsed current
  • displays graph

voltage
time
8
Measurements / results first setup
  • VI measurements of all samples before
    irradiation
  • current between 0.1 ?A and 1 mA
  • results of VI measurements before irradiation
  • nearly all samples show same characteristic
  • all differences between samples become larger
    with
  • higher current
  • samples from Siemens
  • old (some years)
  • vary more than 20

samples siemens
9
Measurements / results first setup
  • dependence of the voltage on readout frequency
    and
  • readout pulse length
  • 10 samples together irradiated with 1.0 E14
    protons/cm2
  • applied current 1 mA
  • pulse length varying between 1 ms and 1 s
  • pulse to pulse time between 60 s and 3 s
  • Results of dependence on readout frequency
    pulse length
  • not very sensitive
  • to pulse length
  • (except of constant current)
  • not at all sensitive to
  • time between pulses
  • but differences of more
  • than 20 between the
  • different diodes

10
Measurements / results first setup
  • dependence on readout current
  • ONE diode irradiated with 1.0 E14 protons/cm2
  • pulse to pulse 3 s, pulse length varying
  • current varying between 1 ?A and 100 mA
  • Results of dependence on readout current

11
Problems of first setup
12
New setup
  • peltier element below socket of diode regulates
  • temperature of diode to exactly 19.3 ? 0.01
    degree celsius
  • temperature read out by small temperature sensor
  • (operated with Keithley 2410)
  • readout of diode still with Keithley 2400
  • temperature displayed on web with webDAQ/100

13
Measurements with new setup
  • ONE diode irradiated with 1.0 E14 protons/cm2
  • always same end value with constant current
  • first no room temperature effects (outside box)
    visible
  • because of the good temperature shielding
  • over night / weekend measurements
  • irradiated diode
  • non irradiated diode
  • very temperature stable resistor
  • measurements
  • applied current 100?A, constant current
  • temperature measured inside and outside the box
    with 2
  • digits
  • voltage measured with labview-program and
    Keithley
  • 2400

14
First results (new setup)
  • irradiated diode voltage still depending on
    temperature
  • but very sensitive
  • not irradiated diode
  • same results but
  • less amplitude
  • 1 k Ohm resistor

15
Problems of temperature / Keithleys
  • not completely clear yet
  • effect of temperature in diode?
  • effect of room temperature in Keithleys?
  • limit of keithley accuracy!

16
First conclusions
  • before irradiations
  • all diodes very close together, only few
    discrepancies on readout voltage
  • after irradiation
  • diodes show discrepancies of up to 20 on
    readout voltage
  • diodes very temperature sensitive
  • temperature needs to be controlled
  • best readout scheme
  • current 100 ?A
  • pulse length 1 ms
  • pulse to pulse 3s (not very sensitive)

17
Outlook
  • continue measurement
  • more different devices (to get statistics)
  • more sensitive temperature control
  • dependence on the readout temperature
  • for fluences 1.0 E12...E15 p/cm2
  • from 10 C to 30 C
  • dependence on the fluence
  • 1.0 E12 p/cm2 up to 1.0 E15 p/cm2
  • annealing of samples in oven
  • 40, 60. 80, 100 degree celsius
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