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The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Search for Scintillation in Doped Lead Fluoride Crystals for the HHCAL Detector Concept Rihua Mao, Liyuan.

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Presentation on theme: "The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Search for Scintillation in Doped Lead Fluoride Crystals for the HHCAL Detector Concept Rihua Mao, Liyuan."— Presentation transcript:

1 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Search for Scintillation in Doped Lead Fluoride Crystals for the HHCAL Detector Concept Rihua Mao, Liyuan Zhang, Ren-yuan Zhu California Institute of Technology

2 2 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Introduction A Fermilab team (A. Para et al.) has proposed a total absorption homogeneous HCAL detector concept for the International Linear Collider to achieve good jet mass resolution, where both Cherenkov and scintillation lights are measured for good hadronic energy resolution. Requirements of Crystals:  High density.  Good UV transmittance.  Some scintillation light, not necessary bright and fast.  Cost-effective material (70 to 100 m 3 !).

3 3 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 HHCAL Conceptual Design A. Para, ILCWS08, Chicago: GEANT simulation shows jet energy resolution of about 22%/  E after corrections. This is much better than what has been achieved with PFA. R.-Y. Zhu, ILCWS-8, Chicago: a HHCAL cell with pointing geometry

4 4 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 ParametersBi 4 Ge 3 O 12 (BGO) Bi 4 Si 3 O 12 (BSO) PbF 2 (PbF) PbWO 4 (PWO) NaBi(WO 4 ) 2 (NBW) ρ (g/cm 3 )7.136.8?7.778.37.58 λ I (cm)22.823.121.020.721.2 n @ λ max 2.152.061.822.22.15 τ decay (ns)300100?10-30 /10-200? λ max (nm)480470?420/512440 Cut-off λ (nm)300295260350/400340 Light Output (%)10020?2<1 Melting point (°C)105010308421123923 Raw Material Cost (%)10047294951 Comparison of Crystals for HHCAL

5 5 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 3 Candidates for HHCAL Following 2/19/08 workshop at SICCAS, 5 x 5 x 5 cm 3 samples evaluated

6 6 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Cosmic Setup with Dual Readout UG11 and GG 400 used to select Cherenkov & scintillation Agilent 6052A (500 MHZ) DSO with rise time 0.7 ns Hamamatsu R2059 PMT (2500 V) with rise time 1.3 ns

7 7 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Cherenkov Needs UV Transparency Cherenkov figure of merit Using UG11 optical filter Cherenkov light can be effectively selected with negligible contamination from scintillation

8 8 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Scintillation Selected with Filter GG400 optical filter effectively selects scintillation light with very small contamination from Cherenkov

9 9 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Ratio of Cherenkov/Scintillation 1.6% for BGO and 22% for PWO with UG11/GG400 filter and R2059 PMT BGOPWO

10 10 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 No Discrimination in Front Edge S Consistent timing and rise time for all Cherenkov and scintillation light pulses observed. SS C CC

11 The 2 nd HHCAL Workshop, Beijing, China 11 5/9/2010 Luminescence of PbF 2 at Low Temperature 1.Luminescence Kinetics of PbF 2 Single Crystals, M. Nikl, K. Polak, Phys. Status Solidi, A117, pK89, 1990 2.Luminescence of orthorhombic PbF 2, D. L. Alov, S. I. Rybchenko, J. Phys.: Condens. Matter, vol 7, p1475, 1995. 3.Photoluminescence of orthorhombic and cubic PbF 2 single crystal, M. Itoh, H. Nakagawa, M. Kitaura, M. Fujita, D. Alov, J. Phys.: Condens. Matter, vol 11, p3003, 1999. Figs. of ref. 3 Othrorhombic Cubic

12 The 2 nd HHCAL Workshop, Beijing, China 12 5/9/2010 Luminescence / Scintillation of PbF 2 at Room T 1.Deformation and thermal treatment application to heavy scintillators production, S.N.Baliakin et. Al., proceedings of the Crystal 2000 Int. Conf. on Heavy scintillators for scientific and industrial applications, Chamonix, France, Sept. 22-26, 1992, p587. 2.A search for scintillation in doped and othrorhombic lead fluoride, D.F. Anderson, J.A. Kierstead, P. Lecoq, S. Stoll, C.L. Woody, NIM, A342, p473, 1994 3.Observation of fast scintillation light in a PbF 2 :Gd crystal, C.L. Woody, S.P. Stoll, J.A. Kierstead, IEEE TNS, vol.43, p1303, 1996 Figs. of ref. 3 Radioluminescence of PbF 2 (Gd)PbF 2 (Gd) Response to MIP of 1 GeV/c

13 13 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 PbF 2 Samples A total of 116 samples with various rare earth doping were grown by vertical Bridgman method at SIC and Scintibow. SIC samples are of 1.5 X 0 (14 mm) cube, while most of the Scintibow samples are of Φ 22 x 15 mm. Photo: SIC sample/Scintibow sample.

14 14 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Photo- and X-luminescence Photo luminescence was measured by using Hitachi F- 4500 fluorescence spectrophotometer. An AMTPEK portable X-ray tube (ECLIPSE-III) was used for the X-luminescence measurement. Monochromator and PMT UV lamp and monochromator X-ray tube Hitachi F-4500

15 15 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Luminescence: Er & Eu Doped PbF 2 Consistent Photo- and X-luminescence observed

16 16 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Luminescence: Gd & Ho doped PbF 2 Consistent Photo- and X-luminescence observed

17 17 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Luminescence: Pr & Sm Doped PbF 2 Consistent Photo- and X-luminescence observed

18 18 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Luminescence: Tb doped PbF 2 While total 7 rare earth dopings show consistent Photo- and X- luminescence, no broadband emission of d-f transition was observed.

19 19 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Decay Time Measurement

20 The 2 nd HHCAL Workshop, Beijing, China 20 5/9/2010 Verified with BGO & CsI(Tl) 1280 ns290 ns Decay time consists with well known values

21 The 2 nd HHCAL Workshop, Beijing, China 21 5/9/2010 Decay Time: Er & Eu Doped PbF 2 1.5 ms 8.5 ms

22 22 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Decay Time: Ho and Sm Doped PbF 2 7.0 ms 1.3ms

23 23 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Decay Time: Tb Doped PbF 2 5.0 ms Under UV plused laser excitation, the luminescence decay time of Gd and Pr doped samples is too weak to be measured.

24 24 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Comparison with the Ref-2 DopantCaltechRef-2 Smf-f Euf-f Tbf-f Tmno Ceno Ndno Hof-fno Erf-fno Dynof-f Ybnof-f? Prf-fN/A Gdf-f ?N/A No fast luminescence of d-f transition was observed.

25 25 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Anode Current Measurement Distance between source and sample: 2 cm

26 26 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Anode Current: PWO & Un-doped PbF 2 PWO: L.O. = 20 p.e./MeV, anode current = 240 nA

27 27 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Anode Current: All Samples

28 28 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Summary of Anode Current IDAnode current (nA) Size (mm)Doping Scintibow-1 5118 x12 x10Eu Scintibow-18 52Φ22X15Eu/Gd Scintibow-27 53Φ20X15Eu/Tb Scintibow-B19 56Φ20X15Eu/Tb/Na Scintibow-B21 83Φ22X15Eu/Bi/Na Scintibow-B23 73Φ20X15Eu/Bi/Na Undoped 4214 x 14 x14--

29 29 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 ɣ -ray Excited Pulse Height Spectrum

30 30 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 ɣ -ray Excited PHS: PWO

31 31 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 ɣ -ray Excited PHS: Doped PbF 2 No evident photopeak was observed with up to 4000 ns gate. PbF 2 : EuPbF 2 : Eu/Bi/Na

32 32 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Summary Lead fluoride crystal samples doped with various rare earth dopant were grown by Bridgman method. Consistent photo and x-ray luminescence found in samples with Er, Eu, Gd, Ho, Pr, Sm and Tb doping. The decay time of doped samples was found to be very long at ms scale as expected from the f-f transition of the rare earth elements. While some doped samples show anode current larger than the un-doped samples, their ɣ -ray excited pulse height spectra were found identical to un-doped sample, indicating no scintillation light.

33 33 The 2 nd HHCAL Workshop, Beijing, China5/9/2010 Future Plan Investigation will continue to search for scintillation in doped lead fluoride. Rescan the dopants showing consistent photo and x- ray luminescence with samples of improved optical quality, i.e. grown in platinum crucibles. Rescan these samples at low temperature to understand the quenching mechanism at the RT. A spectrophotometer capable of measuring luminescence in a cryostat system is being procured. Looking into the other phase: othrorhombic. Can we get large size and good quality α-PbF 2 crystal? Evaluate other potential candidate materials for the HHCAL detector concept, such as BSO, glasses and ceramics etc.

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