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MONTE-CARLO SIMULATION OF A GAAS ELECTRON SOURCE

被引:9
作者
YANG, B
CIULLO, G
GUIDI, V
TECCHIO, L
机构
[1] UNIV BARI,DIPARTIMENTO FIS,I-70124 BARI,ITALY
[2] UNIV FERRARA,DIPARTIMENTO FIS,I-44100 FERRARA,ITALY
[3] INFN,I-44100 FERRARA,ITALY
[4] UNIV TURIN,DIPARTIMENTO FIS SPERIMENTALE,I-10125 TURIN,ITALY
[5] INFN,I-10125 TURIN,ITALY
来源
JOURNAL OF PHYSICS D-APPLIED PHYSICS | 1992年 / 25卷 / 12期
关键词
D O I
10.1088/0022-3727/25/12/022
中图分类号
O59 [应用物理学];
学科分类号
摘要
Photoelectron transport in a GaAs electron source was studied using a Monte Carlo simulation technique. The principle of the method is to simulate the motion of photoexcited hot electrons in GaAs real space, taking into account various scattering mechanisms. The calculated electron energy distribution is in very good agreement with experimental measurements. The calculation predicts the electron emittance at the GaAs surface being from 2.70 pi to 3.29 pi mm mrad and the electron transit time spread (TTS) of the source ranging from 270 to 284 ps. It was also found that the hot photoelectron mean free path is 117.5 to 39.4 nm with the incident photon energy changing from 1.6 to 2.5 eV.
引用
收藏
页码:1834 / 1837
页数:4
相关论文
共 20 条
[1]   INFLUENCE OF THE LASER MODES ON THE ENERGY SPREAD IN PHOTOEMITTED ELECTRON-BEAMS [J].
ALEKSANDROV, AV ;
CALABRESE, R ;
DIKANSKY, NS ;
GUIDI, V ;
KOT, NC ;
KUDELAINEN, VI ;
LEBEDEV, VA ;
LOGACHOV, PV ;
TECCHIO, L .
PHYSICS LETTERS A, 1992, 163 (1-2) :77-81
[2]  
BELL RL, 1973, NEGATIVE ELECTRON AF
[3]  
BURT MG, 1973, J PHYS D, V10, P721
[4]   PHOTOEMISSION FROM ACTIVATED GALLIUM-ARSENIDE .1. VERY-HIGH-RESOLUTION ENERGY-DISTRIBUTION CURVES [J].
DROUHIN, HJ ;
HERMANN, C ;
LAMPEL, G .
PHYSICAL REVIEW B, 1985, 31 (06) :3859-3871
[5]   CALCULATED ENERGY-DISTRIBUTIONS OF ELECTRONS EMITTED FROM NEGATIVE ELECTRON AFFINITY GAAS-CS-O SURFACES [J].
ESCHER, JS ;
SCHADE, H .
JOURNAL OF APPLIED PHYSICS, 1973, 44 (12) :5309-5313
[6]   PHOTOELECTRON SURFACE ESCAPE PROBABILITY OF (GA,IN)AS-CS-O IN 0.9 TO - 1.6 MUM RANGE [J].
FISHER, DG ;
ENSTROM, RE ;
ESCHER, JS ;
WILLIAMS, BF .
JOURNAL OF APPLIED PHYSICS, 1972, 43 (09) :3815-&
[7]  
FRASER JS, 1985, IEEE T NUCL SCI, V32, P1791, DOI 10.1109/TNS.1985.4333725
[8]   THE MONTE-CARLO METHOD FOR THE SOLUTION OF CHARGE TRANSPORT IN SEMICONDUCTORS WITH APPLICATIONS TO COVALENT MATERIALS [J].
JACOBONI, C ;
REGGIANI, L .
REVIEWS OF MODERN PHYSICS, 1983, 55 (03) :645-705
[9]  
JACOBONI C, COMMUNICATION
[10]   THE ENERGY-SPECTRUM OF PHOTOELECTRONS EMITTED FROM A SEMICONDUCTOR WITH NEGATIVE ELECTRON-AFFINITY [J].
KOGAN, SM ;
POLUPANOV, AF .
ELECTROCHIMICA ACTA, 1989, 34 (01) :57-61
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