Growth of Germanium for Lithium Drift Detectors

Growth of Germanium for Lithium Drift Detectors

The germanium for lithium drift germanium detectors should have the following properties: 1. High lithium drift rate. 2. Low reverse current during the drifting process - particularly for high temperature drifting. 3. Minimal lithium precipation during drifting. 4. Capability of fabrication into det...

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Veröffentlicht in:IEEE (Inst. Elec. Electron. Eng.), Trans. Nucl. Sci., NS-15: No. 3, 347-51(June 1968) Trans. Nucl. Sci., NS-15: No. 3, 347-51(June 1968), 1968-06, Vol.15 (3), p.347-351
Hauptverfasser: Adda, L. P., Benson, K. E., deWitt, R. C., McKenzie, J. M.
Format: Artikel
Sprache:eng
Schlagworte:
Atmosphere
Atmospheric measurements
CRYSTAL GROWTH
CRYSTALLIZATION
CRYSTALS
Density measurement
Detectors
DIFFUSION
Fabrication
GERMANIUM
GERMANIUM/crystal growth methods for, for fabrication of high-quality lithium-drifted detectors
Hydrogen
IMPURITIES
LITHIUM
N26110 -Instrumentation-Radiation Detection Instruments- General Detectors & Monitors
SEMICONDUCTOR COUNTERS
SOLID-STATE COUNTERS
Temperature
Voltage
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Zusammenfassung:The germanium for lithium drift germanium detectors should have the following properties: 1. High lithium drift rate. 2. Low reverse current during the drifting process - particularly for high temperature drifting. 3. Minimal lithium precipation during drifting. 4. Capability of fabrication into detectors exhibiting (a) Low noise reverse currents at high bias voltages (b) A minimum of carrier trapping. Germanium grown in a hydrogen atmosphere exhibits most of these desirable qualities. Measurements of ρ, τ, dislocation density, Hall mobility, conductivity, and IR absorption on both hydrogen grown and normally grown crystals have been made for correlation with detector properties. These measurements and the details of the hydrogen growth process are discussed.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.1968.4324957