Abstract
Energy deposition in times as short as tens of nanoseconds, with densities of joules/cm2, has emerged in the last few years as a new way of modifying the near surface structures of materials. The initial input came from the use of Q-switched laser pulses to anneal damage in ion implanted semiconductors. Interest in other areas, such as metallurgy, is now growing because of the possibility of forming new phases or new structures. The history of this field is reported in the proceedings of the annual meetings of the Materials Research Society dedicated to this subject since 1978 (Ferris et al., 1979; White and Peercy, 1980; Gibbons et al., 1981).
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
von Allmen, M. F. (1982) in “Laser Annealing of Semiconductors,” J. M. Poate and J. W. Mayer, eds. Academic Press, N.Y., Chapter 3.
von Allmen, M. F. and S. S. Lau, ibid, Chapter 12.
Andersen, H. H., and Ziegler, J. F., (1977), “Hydrogen Stopping and Ranges in all Elements,” Pergamon Press, N.Y.
Auston, D. H., Surko, C. M. Venkatesan, T. N. C., Slusher, R. E. and Golovchenko, J. A., (1978), Appl. Phys. Lett. 33, 437.
Auston, D. H., Surko, C. M., Venkatesan, T. N. C., Slusher, R. E. and Golovchenko, J. A., (1979), Appl. Phys. Lett. 35, 635.
Baeri, P. (1982), “Computer Modelling of Laser Annealing,” in “Laser and Electron Beam Interaction with Solids,”
B. R. Appleton and G. K. Celler, eds., Elsevier North-Holland, p. 52.
Baeri, P., Foti, G., Poate, J. M. and Cullis, A. G. (1980), Phys. Rev. Lett. 45, 2036.
Baeri, P. and Campisano, S. U. (1982), Chapter 4 in “Laser Annealing of Semiconductors,” J. M. Poate and J. W. Mayer, eds., Academic Press, N.Y.
Bagley, B. G. and Chen, H. S. (1979), in “Laser-solid Interaction and Laser Processing,” S. D. Ferris, H. J. Leamy and J. M. Poate, eds., A.I.P., No. 50, p. 97.
Barbier, D., Baghdadi, M., Langier, A. and Vicario, E., ( 1980, “Journal of Microscopy and Spectroscopy of Electrons,” 6, 513.
Birnbaum, M. and Stocker, T. L. (1968), J. Appl. Phys. 39, 6032.
Bishop, H. E. (1974), “Quantitative Scanning Electron Microscopy,” D. B. Holts et al., eds., Academic Press N.Y. — Chapter 2.
Bloembergen, N. (1979), in “Laser-solid Interactions and Laser Processing,” S. D. Ferris, H. J. Leamy and J. M. Poate, eds., (American Institute of Physics No. 50 ) p. I.
Brice, J. C. (1963), Solid State Electronics, 6, 673.
Brodsky, M. H. Title, R. S., Weiser, K. and Pettit, G. D., (1970), Phys. Rev. B 1, 2632.
Brown, W. L. (1980), in “Laser and Electron Beam Processing of Materials,” C. W. White and P. Peercy, eds. ( Academic Press, N.Y. ) p. 21.
Combescot, M. ( 1980, Phys. Lett. 85A, 308.
Della Mea, G., Dona dalle Rose, L. F. Mazzoldi, P., and Miotello, A. (1980), Rad. Elf. 46, 133.
Compaan, A., A. Aydiuli, H. W. Lo and M. C. Lee in “Laser and Electron Beam Interactions with Solids,” edited by B. R. Appleton and G. K. Celler, North-Holland, N.Y. 1982.
Dona dalle Rose, L. F. and Miotello, A. (1980), Rad. Elf. 53, 7.
Draper, C. W. (1980), in “Lasers in Metallurgy,” edited by K. Mukherjee and J. Mazumder, TMS-AIME, Warrendale.
Draper, C. W., Jacobson, D. C., Buene, L. and Poate, J. M. (1981), unpublished results.
Dzieviour, J. and Schmid, W. (1977), Appl. Phys. 31, 346.
Fair, R. B. (1979), J. Appl. Phys. 50, 6552.
Feldman, C. (1960), Phys. Rev. 17, 455.
Ferris, S. D., Leamy, H. J. and Poate, J. M., eds. (1979) “Laser-Solid Interactions and Laser Processing,” (AIP No 50).
Follstaedt, D. M., Picraux, S. T. Peercy, P. S., and Wampler, W. R. ( 1980, Appl. Phys. Lett. 39 (4), 327.
Galvin, G. F., Thompson, M. 0., Mayer, J. W., Hammond, R. B., Paulter, N. and Peercy, P. S. (1982), Phys. Rev. Lett. 48, 33.
Gibbons, J. F., Hess, L. D. and Sigmon, T., eds. ( 1980, “Laser and Electron-Beam Solid Interactions and Materials Processing,” ( Elsevier-North Holland, New York ).
Greenwald, A. c., Kirkpatrick, A. R., Little, R. G. and Minnucci, J. A. (1979), J. Appl. Phys. 50, 783.
Haug, A. (1978), Solid State Electron. 21, 1281.
Hodgson, R. T., Baglin, J. E. E., Pal., R., Neri, J. H., Hammer, D. A. (1980), Appl. Phys. Lett. 37, 187.
Krausse, J. (1974), Solid State Electron. 17, 427.
Larson, B. C., White, C. W., Noggle, T. S. and Mills, D. (1982), Phys. Rev. Lett. 48, 337.
Lietoila, A. and Gibbons, J. (1981), in “Laser and Electron-Beam Solid Interactions and Materials Processing,” J. F. Gibbons, L. Hess and T. Sigmon, eds., Elsevier, p. 23.
Liu, J. M., Yen, R., Kurz, H., and Bloembergen, N. (1981), Appl. Phys. Lett. 39, 755.
Lo, H. W. and Compaan, A. (1980), Phys. Rev. Lett. 44, 1604.
Merli, P. G. and Rosa, R. (1981), Optik 58, 201.
Musal, H. M., Jr., (1980), in “Laser Induced Damage in Optical Materials,” NBS-568. Issued July 1980, pp. 159.
Nathan, M. I., Hodgson, R. T. and Yoifa, E. J. (1980), Appl. Phys. Lett. 36, 512.
Picraux, S. T., Follstaedt, D. M., Knapp, J. A., Wampler, W. R. and Rimini, E. (1981), in “Laser and Electron Beam Solid Interactions and Materials Processing,” J. F. Gibbons, L. Hess and T. Sigmon, North-Holland, p. 575.
Poate, J. M. and Mayer, J. W., eds. (1982), “Laser Annealing of Semiconductors,” ( Academic Press, New York ).
Pronko, P. P., Wiedersich, H., Seshan, K., Helling, A. L., Lograsso, T. A. and Baldo, P. M. (1981), in “Laser and Electron Beam Solid Interactions and Materials Processing,” J. F. Gibbons, L. Hess and T. Sigmon, eds., North-Holland, pp. 599.
Schmid, P. E. (1981), Phys. Rev. B 23, 5531.
Spaepen, F. and Turnbull, D. (1979), in “Laser-solid Interaction and Laser Processing,” S. D. Ferris, H. J. Leamy and J. M. Poate, eds., A.I.P. n. 50, p. 73.
Spencer, L. V. (1958), N.B.S. Energy Dissipation by Fast Electrons-Government Printing office, Washington.
Sternglass, E. J. (1954), Phys. Rev. 95, 345.
Stritzker, S., Pospieszcyk, P. and Tagle, J. A. (1981), Phys. Rev. Lett. 47, 356.
Van Vechten, J. A. (1980), in “Laser and Electron Beam Processing of Materials,” C. W. White and P. Peercy, eds., Academic Press, N.Y p. 53.
Van Vechten, J. A. and Wautelet, M. (1981), Phys. Rev. B 2923.
Wampler, W. R., Follstaedt, D. M. and Picraux, S. T. (1980), Appl. Phys. Lett. 36, 366.
Wampler, W. R., Follstaedt, D. M. and Peercy, P. S. (1981), in “Laser and electron beam solid interactions and materials processing,” J. F. Gibbons, L. Hess and T. Sigmon, eds., North-Holland, p. 567.
White, C. W. and Peercy, P., eds. (1980), “Laser and Electron Beam Processing of Materials,” ( Academic Press, N.Y. ).
Wolfe, W. L. (1965), “Handbook of Military Infrared Technology,” U.S. Government Printing office, Washington.
Yoifa, E. J. (1980a), Phys. Rev. B 21, 2415.
Yoifa, E. J. (1980b), Appl. Phys. Lett. 36, 37.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1983 Plenum Press, New York
About this chapter
Cite this chapter
Rimini, E. (1983). Energy Deposition and Heat Flow for Pulsed Laser, Electron and Ion Beam Irradiation. In: Poate, J.M., Foti, G., Jacobson, D.C. (eds) Surface Modification and Alloying. NATO Conference Series, vol 8. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-3733-1_2
Download citation
DOI: https://doi.org/10.1007/978-1-4613-3733-1_2
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4613-3735-5
Online ISBN: 978-1-4613-3733-1
eBook Packages: Springer Book Archive