Real-time control of the MBE growth of InGaAs on InP

The use of a multiple-sensor control system to regulate in real-time the growth of thick, lattice-matched epitaxial films of InGaAs and InAlAs on InP substrates is described. The application of transmission-mode absorption-edge spectroscopy for in situ substrate temperature sensing, and spectroscopi...

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Bibliographic Details
Published in:Journal of crystal growth 1999-05, Vol.201, p.31-35
Main Authors: Roth, J.A, Chow, D.H, Olson, G.L, Brewer, P.D, Williamson, W.S, Johs, B
Format: Article
Language:English
Subjects:
Growth control
InAlAs
InGaAs
MBE
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Summary:The use of a multiple-sensor control system to regulate in real-time the growth of thick, lattice-matched epitaxial films of InGaAs and InAlAs on InP substrates is described. The application of transmission-mode absorption-edge spectroscopy for in situ substrate temperature sensing, and spectroscopic ellipsometry for epilayer composition and thickness are discussed, and examples are given demonstrating precision and accuracy consistent with the fabrication of devices such as heterojunction bipolar transistors that require thick (>1.5 μm) InGaAs layers. Feedback regulation of substrate temperature to ±1°C and epilayer composition (alloy fraction) to ±0.002 are demonstrated using a cascade-PID control scheme in which the sensor is used in a software-based outer control loop. Growth of a complete HBT using sensor-based feedback control of substrate temperature, composition and epilayer thickness is described.
ISSN:0022-0248
1873-5002
DOI:10.1016/S0022-0248(98)01271-8