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State of the art on epitaxial GaAs detectors

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1 State of the art on epitaxial GaAs detectors
GESEC R&D Inc. Semiconductor Materials Engineering State of the art on epitaxial GaAs detectors G.C. Suna, N. Mañeza, M. Zazouia, A.Al-Ajilib, V.O'Sheab, F.Quaratib, K.M.Smithb, D. Chambellanc, O. Galc, Ph. Pillotc, M. Lenoird, J. P. Montagned, A. Bchetniae, J.C. Bourgoinf a LMDH, Université Pierre et Marie Curie (Paris 6), France b Department of Physics and Astronomy, University of Glasgow,UK. c LIST/DIMRI, CEA , France d Hospital Armand Trousseau, Paris, France. e Lab. de Physique des Matériaux, Faculté des Sciences de Monastir, Tunisie f GESEC R&D, 68 Avenue de la Forêt, Avon, France This is a Collaborative work among specialists of semiconductor materials, device processing, detector characterization and medical imaging.

2 Motivation Decrease the dose (more than a factor of 10 compared to scintillator flat panels) in X-ray imaging

3 Outline Review of X-ray detection with GaAs
Development of epi-growth of GaAs Device processing Device electrical characteristics Performance of radiation detectors Limitations of current devices and ways to overcome

4 History of GaAs radiation detectors (1)
Early work with LPE GaAs (by Tavendale group, 1970) Three typical 241Am and 57Co -ray spectra, at 100V bias and 130K, from 1.5mm diameter, 80m thick LPE GaAs surface barrier detectors, (carrier concentration ~ 6 x 1013 cm-3), fabricated on tin-doped substrates.

5 History of GaAs radiation detectors (2)
MBE epi-GaAs (Bertuccio et al., 1996/97) Pulse height spectrum of photons from an 241Am source detected in a 170 x 320m2 , 5 micron thick MBE undoped GaAs diode detector at 15V reverse bias

6 Progress in the growth of epitaxial GaAs
One 4 inch, 550 µm layer Thickness profile of epi-GaAs grown on four inch substrate Source: SI GaAs n+ substrate: n type (<1014 cm-3) SI substrate: p type (<1014 cm-3)

7 Electronic properties of epitaxial GaAs
Photoluminescence mapping SI GaAs Epitaxial GaAs layer CdTe

8 Technique to fabricate detectors
ohmic contact p+ ion implantation (35 nm) GaAs epilayer n+ substrate (Cz GaAs) n+ ion implantation (35 nm)

9 Current-Voltage characteristic of a small pad diode
2 nA/mm2 at 50 V

10 Alpha particle pulse height spectra
Combined source 241Am(5.5 MeV), 244Cm (5.8 MeV) and 239Pu (5.2 MeV)

11 Charge collection efficiency
Fitted values at 100 V, giving charge collection efficiency of 85%.

12 Pulse height spectra of monoenergetic X-rays
Characteristic K-series X-rays of Ag, Ba and Nb.

13 Photocurrent versus radiation dose
1mm2 epitaxial GaAs diode detector

14 Limitation: width of depleted zone
Three ways to overcome it: growth conditions electron irradiation use of 3D detectors

15 1 MeV electron irradiation
After irradiation Before irradiation Low defects not enough to compensate free carriers. Irradiation introduces defects increase depleted depth

16 3D detectors ‘3D’ SI-LEC GaAs pixel detector bonded to DASH-E ROIC
This demonstrates that 3D detectors can be made with GaAs, in this case, it is SI GaAs, the uniformity is bad. If you select one good pixel you can get a very good energy resolution.

17 End

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