Abstract
The problem of developing a laser with a transition frequency in the EUV or soft X-ray regime is challenging, due primarily to the difficulty in developing an inversion on a line with appreciable gain under experimentally accessible conditions, and in part to the large local power requirements involved. The development of EUV and soft X-ray lasers would lead to advances in spectroscopy due to the potential for high brightness and narrow line width of the lasing radiation. There may be practical applications for a soft X-ray laser in the area of semiconductor photolithography. Short wavelegth holography may prove to be useful, assuming in both cases that the output laser radiation is sufficiently powerful, coherent and economical, and that production of the laser radiation can be carried out in a practical manner.
Work performed under the auspices of the U.S. Department of Energy by Lawrence Livermore National Laboratory under Contract W-7405-Eng-48 and supported by the Fannie & John Hertz Foundation.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsPreview
Unable to display preview. Download preview PDF.
References
Vinogradov, A.V., Sobelman, I.I., and Yukov, E.A., “Possibility o£ Constructing a Far-ultraviolet Laser Utilizing Transitions in Multiply Charged Ions in an Inhomogeneous Plasma,” Soviet J. Quantum Electronics 5 (1975) p. 59.
Norton, B.A. and Peacock, N.J. “Population Inversion in Laser-produced Plasmas by Pumping with Opacity-Broadened Lines,” Journal of Physics B: Atomic and Molecular Physics 8, 6 (1975), p. 989.
Apruzese, J.P., Davis, J., and Whitney, K.G. “Use of Multiple Photoexcitation in an Optically Thick Silicon-Aluminum Plasma to Obtain Lasing at 44 A,” J. Phys. B 11., n20 (1978) p. 1643.
Bhagavatula, V.A. “Soft X-ray Population Inversion in Laser Plasmas by Resonant Photoexcitation and Photon-Assisted Processes,” IEEE QE-16 (1980) p. 603.
Alley, W.E., Chapline, G.F., Kunasz, P. and Weisheit, J.C. “Calculation of Gain at X-ray Wavelengths Resulting from Optical Pumping of He-like Ions,” J. Q.S.R.T. 27 p. 257 (1982).
Hagelstein, P.L. “Physics of Short Wavelength Laser Design,” (Ph.D. Thesis), LLNL UCRL-53100 (1981).
Spector, N., Zigler, A. and Zmora, H. “Cr, Co, and N: Transitions Isoelectronic to the Fe XXIV-Fe XVII Lines around 11 A in Laser-Produced Plasma,” J. O.S.A. Letter 70, 857 (1980).
Scofield, J.H., Energies of Hydrogen and Helium-like Ions for Z’s from 6 to 54, Lawrence Livermore National Laboratory Livermore, CA, UCID-16848 (1975).
Fawcett, B.C. and Hayes, R.W. Mon. Not. R. Ast. Soc. 170, 185 (1975).
Boiko, V.A., Faenov, A. Ya., and Pikuz, S.A. “X-ray Spectroscopy of Multiply Charged Ions from Laser Plasmas,” J. Quant. Spectroscopy and Rad. Transport 19, 11 (1978).
Boiko, V.A., Pikuz, S.A., Safronova, and Faenov, A.Ya. “Spectra of Be-like Ions with Nuclear Charge Z = 22,..., 34 from Laser-Produced Plasmas,” J. Phys. B: Atom. Molec. Phys. 10, 1253 (1977).
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1984 Plenum Press, New York
About this chapter
Cite this chapter
Hagelstein, P.L. (1984). Resonantly-Pumped Soft X-Ray Lasers Using ICF Drivers. In: Hora, H., Miley, G.H. (eds) Laser Interaction and Related Plasma Phenomena. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-7332-6_7
Download citation
DOI: https://doi.org/10.1007/978-1-4615-7332-6_7
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4615-7334-0
Online ISBN: 978-1-4615-7332-6
eBook Packages: Springer Book Archive