Quantum Physics of Atomic Frequency Standards

Name: Quantum Physics of Atomic Frequency Standards
Brand: Taylor & Francis Inc
SKU: 9781466576957
Price: 496.0 EUR
Availability: InStock

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€496.00

Product variants

A01=Cipriana Tomescu

A01=Jacques Vanier

Age Group_Uncategorized

Atomic Beam

Atomic Ensemble

Atomic Frequency Standards

Author_Cipriana Tomescu

Author_Jacques Vanier

automatic-update

Buffer Gas

Buffer Gas Pressure

Category1=Non-Fiction

Category=PBW

Category=PHQ

Category=PHV

Category=PSA

clock

Clock Transition

COP=United States

Cs Beam

deep

Delivery_Delivery within 10-20 working days

eq_bestseller

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

Frequency Stability

Frequency Standard

gravitational

Hydrogen Maser

hyperfine

Hyperfine Frequency

IOP Publishing

Language_English

Laser Cooling

Laser Optical Pumping

Laser Radiation

Light Shift

Long Term Frequency Stability

Mot

network

optical

Optical Frequency Standards

Optical Pumping

PA=Available

Price_€100 and above

PS=Active

Rabi Frequency

Ramsey Fringe

red

Room Temperature

shift

Short Term Frequency Stability

softlaunch

space

stability

Storage Bulb

Product details

ISBN 9781466576957
Weight: 884g
Dimensions: 156 x 234mm
Publication Date: 05 Aug 2015
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback
Language: English

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Up-to-Date Coverage of Stable and Accurate Frequency Standards

The Quantum Physics of Atomic Frequency Standards: Recent Developments covers advances in atomic frequency standards (atomic clocks) from the last several decades. It explains the use of various techniques, such as laser optical pumping, coherent population trapping, laser cooling, and electromagnetic and optical trapping, in the implementation of classical microwave and optical atomic frequency standards.

The book first discusses improvements to conventional atomic frequency standards, highlighting the main limitations of those frequency standards and the physical basis of the limitations. It then describes how advances in the theory and applications of atomic physics have opened new avenues in frequency standards. The authors go on to explore the research and development of new microwave and optical frequency standards before presenting the results in frequency stability and accuracy achieved with these new frequency standards. They also illustrate the application of atomic clocks in metrology, telecommunications, navigation, and other areas and give some insight into future work.

Building on the success of the previous two volumes, this up-to-date, in-depth book examines the vast improvements to atomic clocks that have occurred in the last 25 years. The improved stability and accuracy enable the verification of physical concepts used in fundamental theories, such as relativity, as well as the stability of fundamental constants intrinsic to those theories.

Jacques Vanier is an adjunct professor in the Physics Department at the University of Montreal. He is a fellow of the Royal Society of Canada, the American Physical Society, and the Institute of Electrical and Electronic Engineers. He has written more than 120 journal articles and proceedings papers and is the author of several books on masers, lasers, and atomic clocks. His research work is oriented toward the understanding and application of the quantum electronics phenomena.

Cipriana Tomescu is an invited researcher in the Physics Department at the University of Montreal. She is the author of numerous articles in scientific journals and conference proceedings. Her research involves state-of-the-art atomic frequency standards and H masers.