Lasers (back to top)
Principles
of Lasers, 4th ed., Orazio Svelto, translated by David
C. Hanna, (Plenun, 1998). |
Excellent introductory
text aimed at the advanced undergraduate student and beginning
graduate student. Contains many practical problems and
examples. The translation was not a problem. |
Laser
Electronics, 2nd ed., Joseph T. Verdeyen, (Prentice-Hall,
1989). |
Introductory text at
a similar, or somewhat lower, level as Svelto's text. By comparison,
it has few worked examples but the treatment of the light-matter
interaction is better. The style is amusing and more casual. |
Lasers,
Peter Milonni and Joseph Eberly, (Wiley, 1988). |
Another excellent introductory
text. Very clear headed treatment. I use it myself as a reference. |
Lasers,
Anthony E. Siegman, (University Science Books, 1986). |
Classic text on the
subject. |
Quantum
Electronics, 3rd ed.,
Amnon Yariv, (Wiley, 1989). |
Treatment is at times
archaic, but still a useful reference. |
Ultrashort Lasers (back to top)
Ultrashort
laser pulse phenomena, Jean-Claude Diels and Wolfgang
Rudolph, (Academic Press, 1996). |
The only extant textbook treatment
of this subject. |
Lasers
for ultrashort light pulses, Joachim Herrmann and
Bernd Wilhelmi, (North-Holland, 1987). |
One of the first books on the subject.
Still useful. |
Frequency-resolved
optical gating - The measurement of ultrashort optical pulses,
Rick Trebino (Kluwer, 2002). |
A modest text by the inventor of
FROG. |
Femtosecond
technology - from basic research to application prospects,
T. Kamiya, et. al (Eds.), Springer Series in Photonics, (Springer-Verlag,
1999). |
From a communications prospective. |
Basic Optics (back to top)
Modern Optics,
Robert Guenther, (Wiley, 1990). |
One of my favorite references. |
Principles
of optics, Max Born and Emil Wolf, with contributions
by A.B. Bhatia, et al., (Cambridge University Press, 1999). |
A classic. Presents a broad and
formal treatment. |
Optics,
Eugene Hecht, with contributions by Alfred Zajac, (Addison-Wesley,
1987). |
Good text. Less formal than Principles
of optics. |
Fundamental
of optics, F. A. Jenkins and H. E. White, (McGraw-Hill,
1976). |
Also a good, but less formal text. |
Nonlinear Optics (back to top)
Nonlinear
Optics, Robert W. Boyd, (Academic Press, 1992). |
Good treatment (uses cgs units).
This is one of the texts I reach for first when I need a reference. |
Quantum
Electronics, 3rd ed., Amnon Yariv, (Wiley, 1989). |
Treatment is at times archaic, but
still a useful reference. |
Optical
Electronics, 4th ed., Amnon Yariv, (Saunders College
Press, 1991). |
Undergraduate version of Quantum
Electronics. |
The Principles
Of Nonlinear Optics, Y. R. Shen, (Wiley, 1984). |
One of the first books on the subject.
Terse treatment, but useful for a broad overview. |
Nonlinear
fiber optics, 3rd ed., Govind P. Agrawal, (Academic
Press, 1991). |
Good treatment of third order effects
as they apply to propagation in fibers, but also a great resource
in general. Note that application to fibers is increasingly of
importantance. |
The Supercontinuum
Laser Source, R. R. Alfano, Ed., (Springer-Verlag,
1989). |
Detailed analysis of third order
effects and the propagation of intense short pulses. A wide variety
of media are considered. |
Other useful references (back to top)
Fourier
transform and its applications, 2nd ed., Ronald Bracewell,
(McGraw-Hill, 1986). |
Best treatment of the subject I
have seen for people that have work to do. |
Numerical
recipes in C, 2nd ed., William Press, Saul Teukolsky,
William Vettering and Brian Flannery, (Cambridge University Press,
1995). |
Or in Fortran, Fortran 90, ...
Considered low brow by the cognoscenti, but I have had good luck
with them. |