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Diamond Detectors Christoph Kurfuerst BE-BI-BL Ewald Effinger BE-BI-BL.

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Presentation on theme: "Diamond Detectors Christoph Kurfuerst BE-BI-BL Ewald Effinger BE-BI-BL."— Presentation transcript:

1 Diamond Detectors Christoph Kurfuerst BE-BI-BL Ewald Effinger BE-BI-BL

2 Outline Why Diamond Detectors Technical information about Diamond Detectors Measurement results Diamond as cryogenic Beam Loss Monitor? Conclusions

3 Why Diamond Detectors Measurement of fast beam losses o ns response time o Bunch by bunch structure Radiation tolerant detector type o Low maintenance o Constant operating conditions Small dimensions o Easier positioning in areas with space limitation Well known response signal o Detector tested under many conditions for verification of the performance o High dynamic range ~ 8 order of magnitude o Linear response to particle flux

4 Diamond Detector Types pCVD sCVD pCVD = polycrystalline Chemical Vapor Deposition (10x10 mm 2 x 0.5 mm) sCVD = single-crystal Chemical Vapor Deposition (5x5 mm 2 x 0.5 mm)

5 BLMD (type Cividec) Detector AC/DC Splitter 2 GHz Amplifier pCVD detector: with high voltage and signal connection AC-DC-Splitter: to separate AC signal current from DC leakage current 2 GHz / 20 dB Broadband Amplifier ( various amplifier available ) Internal HF copper housing and aluminum housing for mechanical protection

6 Principle of Cividec detector Detector, splitter and amplifier on support plate High and low voltage supply – Controlled via ET-7026 Ethernet Controller 1 GHz Scope from LeCroy – Readout via FESA Application from S.B. Pedersen 6 dB Power splitter Ch1 Scope Ch2 ~ 100m CK50 Diamond Detector

7 BLMD (BCM1F CMS / DESY Zeuten) sCVD detector: mounted on the analogue optical link analogue optical link mounted on support PCB including radiation tolerant voltage regulator and test pulse generator Housing with Burndy-8 (for high and low voltage supply) E-2000 connector for optical signal

8 Principle of BCM1F Detector discription sCVD detector with a bias voltage 125 V Fast amplifier (rad tolerant) Analogue optical link LLD form the MIC Optical single mode fiber of around 2km Analogue Receiver (865-RA-04) Optical receiver from CMS ADC CEAN V1721 LTD CEAN V814 TDC CEAN V767 Bridge CEAN V2718 BOBR for timing signals PC for data treatment

9 Measurement results Cividec Measurement from CNGS Detector (16/11/2011 -- 7.24AM) Detector 1 (pit 1) without amplifier Detector 2 (pit 1) without amplifier Detector 3 (pit 2) with 20dB AC amplifier Extraction trigger Detector 4 (pit 1) with 40dB AC amplifier Detector 5 (pit 2) with 40dB AC amplifier Extraction trigger

10 Measurement results Cividec Pic 1. Detector 2 (pit 1) without amplifier (complete extraction) Pic 2. Detector 2 (pit 1) without amplifier ( zoom of rising edge) Pic 3. Detector 2 (pit 1) without amplifier (zoom 5ns structure visible) Measurement from CNGS Detector (16/11/2011 -- 7.24AM)

11 Measurement results BCM1F 50 ns bunch spacing Losses from beam Losses from beam and interaction Arrival Time Histogram from Losses downstream at Collimator in Point 8

12 CryoBLM Project At IR: ability to measure energy deposition in coil limited because of debris from collisions Problem : signal from debris with similar height as simulated beam losses in steady state case Solution : placing detectors closer to losses (inside cold mass of the magnet, 1.9 K) Further possible amelioration: injection area, behind collimators Detectors under test: Diamond, Silicon and liquid helium chamber

13 Question: Does diamond work at 1.9 K for particle detection?

14 Beam test area with cryogenics Intro Beam Oscilloscope Electronics PC Preamplifiers Detectors inside cryostat Cryostat Dewar Vacuum pump

15 Single Particle pulse Detection of minimum ionising particles possible with diamond at liquid helium temperatures

16 Pulse variation with temperature

17 Collected charge per particle Estimated: 3.79 fC

18 Collected charge per spill Measurements in DC mode, as needed for final application

19 Conclusion Diamond proves good properties for BLM application Diamond usable for particle detection at liquid helium temperatures Open questions: o Radiation hardness of material at 1.9 K (tests planed for 2012) o Polarisation at low temperatures might be issue for final application

20 Acknowledgments Erich Griesmayer form CIVIDEC for electronics, plots and pictures Wolfgang Lange from DESY Zeuten for detector pictures Elena Castro from DESY Zeuten for plots Stephane Bart Pedersen form BI/SW for plots Vladimir Eremin for semiconductors holder and general help in many ways Thomas Eisel and his team for cryogenics Heinz Pernegger for analysis program and the sCVD Hendrik Jansen for material and discussions

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