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Laser Spectroscopy

Laser Spectroscopy

Laser spectroscopy is a spectroscopic technique thar uses laser light, or studies the interaction between laser radiation and matter.

Online available information resources on laser spectroscopy.

Further information categories about related topics are listed in the navigation menu on the left side of these page.


Lecture Notes, Tutorials

Diode-Laser Spectroscopy
A brief introduction - Format: PDF - [e]

Doppler-Free Spectroscopy
Doppler-Free Saturated Absorption Laser Spectroscopy - Format: PDF - [e]

Femtosecond Laser Spectroscopy
Lecture notes: Basics of femtosecond laser spectroscopy - Format: PDF - [e]

High-Resolution Laser Spectroscopy
Advanced laboratory course - Format: PDF - [e]

Laser Pulsing Techniques
Modes, mode locking, cavity dumping,pulse compression, grating pairs, femtosecond pulses - Format: PDF - [e]

Laser Spectroscopy
eBook - Format: PDF - [e]

Laser Spectroscopy
Basics. HyperPhysics - [e]

Tunable Diode Laser Spectroscopy
TDLS - Format: PDF - [e]

Ultrafast Laser Technology and Spectroscopy
Theory and applications - Format: PDF - [e]


Special Information

Combustion Research
Laser spectroscopy in combustion research. PSI - Format: PDF - [e]

Exotic Nuclei
Opportunities in Laser Spectroscopy of Exotic Nuclei - Format: PDF - [e]


Books Online, eBooks

Femtosecond Laser Spectroscopy
With recent major breakthroughs in ultrafast laser technology and femtosecond nonlinear spectroscopic techiques, Femtosecond Laser Spectroscopy is currently a burgeoning field in many branches of science, including physics, chemistry, biology, and materials science. Google Books - [e]

Laser Spectroscopy
Basic concepts and instrumentation. Google Books - [e]


Research facilities and departments

Laser Spectroscopy Group. University College Cork - [e]

UK: Bristol
Laser Chemistry, Spectroscopy and Dynamics Group. University of Bristol - [e]

USA: Penn State
Laser Chemistry and Spectroscopy. Penn State University - [e]

Other notes:

Information about this site:

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Laser Spectroscopy
Laser Spectroscopy, basics, information, techniques, research
29.01.2011 00:00:00 [link check]
25.04.2011 [site update]

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Related Books and Scientific Literature: Laser Spectroscopy:


Helmut H. Telle, Angel Gonzlez Ureña, Robert J. Donovan

Laser Chemistry: Spectroscopy, Dynamics and Applications

The book is a carefully structured introduction to the basic theory and concepts of this subject. Assuming little in the way of prior knowledge, the book details underlying concepts and provides an overview of experimental techniques, supported by a broad range of case studies.

Concentrating on molecular mechanisms and the fundamental nature of the phenomena, the book emphasises the basic science rather than presenting over-lengthy mathematical derivations and formalisms.

After introducing concepts and methodologies, an extensive range of examples in presented and discussed, covering spectroscopy, photochemistry, gas-phase, cluster, solution and surface reaction dynamics, analytical chemistry, medical chemistry and environmental chemistry. Additionally, a dedicated section on application is provided at the end of the book.

Wiley; 2007


Maximilian Lackner

Lasers in Chemistry
Probing Matter; Influencing Matter

These two volumes provide a comprehensive overview of laser applications in many important fields of chemistry. They cover both the gleaning of information, as well as the active influencing of reactions, with the applications stretching from chemistry, physics and materials science to biology and medicine. This handy reference also contains an equipment and peripherals overview for laser probing and laser chemistry setups. It is suitable for chemists, physicists, materials scientists, and laser specialists, as well as those working in the chemical industry.

Since its invention in the 1960s, the laser has revolutionized many disciplines in science and technology, as well as in our everyday lives. In chemistry, lasers are not only used to study compounds and materials, but also to influence and even start reactions. By manipulating the reaction conditions, hitherto inaccessible material properties, reaction pathways and improved results can be achieved.

These two volumes cover both the active influencing of reactions as well as the gleaning of information, with applications spanning chemistry, physics and materials science to biology and medicine.

Wiley-VCH; 2008

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