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Masud Mansuripur, G. A. Neville Connell, and Joseph W. Goodman
Masud Mansuripur,2 G. A. Neville Connell,2 and Joseph W. Goodman1
1Stanford University, Department of Electrical Engineering, Stanford, California 94305
2The other authors are with Xerox Corporation, Palo Alto Research Center, 3333 Coyote Hill Road, Palo Alto, California 94304.
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For a multilayer structure illuminated by a laser beam, absorption of optical energy in the absorptive layers and the diffusion of the resultant heat throughout the structure are studied. Analytical and numerical procedures for this study are described, and, as a specific example, the profiles of temperature distribution during recording on a magnetooptical disk are presented. The technique is also expected to be of value for studies of thermal marking and laser annealing.
© 1982 Optical Society of America
Masud Mansuripur and G. A. N. Connell Appl. Opt. 22(5) 666-670 (1983)
S. Y. Suh and D. L. Anderson Appl. Opt. 23(22) 3965-3971 (1984)
C. T. Lee, Thomas G. Miller, and Robert W. Jones Appl. Opt. 21(3) 428-432 (1982)
L. C. Malacarne, N. G. C. Astrath, A. N. Medina, L. S. Herculano, M. L. Baesso, P. R. B. Pedreira, J. Shen, Q. Wen, K. H. Michaelian, and C. Fairbridge Opt. Express 19(5) 4047-4058 (2011)
Joseph H. Apfel Appl. Opt. 21(4) 733-738 (1982)
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Basic Equations of Alternating Direction–Implicit Technique for Problem of Heat Transfer in Multilayers
Numerical Values for Optical and Thermal Parameters of the Quadrilayer