Add to ORKGForeword by Nobel laureate Professor Theodor W. Hänsch of Ludwig-Maximilians-Universität München Based on the authors’ experimental work over the last 25 years, Laser-Based Measurements for Time and Frequency Domain Applications: A Handbook presents basic concepts, state-of-the-art applications, and future trends in optical, atomic, and molecular physics. It provides all the background information on the main kinds of laser sources and techniques, offers a detailed account of the most recent results obtained for time- and frequency-domain applications of lasers, and develops the theoretical framework necessary for understanding the experimental applications. After a historical introduction, the book describes the basic concepts and mathem...
In this work we describe two optical frequency comb systems based on homemade high-repetition rate m...
Abstract. Recent progress in precision control of pulse repetition rate and carrier-envelope phase o...
Surprising as it might seem, it is possible to phase-coherently track, synthesize, count and divide ...
Present situation of new applications of a femtosecond comb as metrological tool is discussed. Some ...
The spectral characteristics of electromagnetic radiation are determined by either its vacuum wavele...
Review contribution dealing with metrology of time and length, about etalons of optical frequencies ...
For more than 100 years, optical atomic/molecular frequency references have played important roles i...
Laser measurement technology has evolved in the last years in a versatile and reflationary way. Toda...
Abstract: In the late 1990’s mode-locked femtosecond lasers were introduced as an important new tool...
Abstract—We now appreciate the fruit of decades of develop-ment in the independent fields of ultrase...
Space-based global navigation and precision timing systems are critical for modern infrastructure. A...
The appearance of the frequency comb technology, awarded the Nobel Prize in Physics 2005, has enormo...
Since the advent of the laser, more than forty years ago, the development of narrow-band single-freq...
The SI second is currently defined through the ground-state hyperfine transition frequency of the ce...
Over the last few years, there has been a remarkable convergence among the fields of ultrafast optic...
In this work we describe two optical frequency comb systems based on homemade high-repetition rate m...
Abstract. Recent progress in precision control of pulse repetition rate and carrier-envelope phase o...
Surprising as it might seem, it is possible to phase-coherently track, synthesize, count and divide ...
Present situation of new applications of a femtosecond comb as metrological tool is discussed. Some ...
The spectral characteristics of electromagnetic radiation are determined by either its vacuum wavele...
Review contribution dealing with metrology of time and length, about etalons of optical frequencies ...
For more than 100 years, optical atomic/molecular frequency references have played important roles i...
Laser measurement technology has evolved in the last years in a versatile and reflationary way. Toda...
Abstract: In the late 1990’s mode-locked femtosecond lasers were introduced as an important new tool...
Abstract—We now appreciate the fruit of decades of develop-ment in the independent fields of ultrase...
Space-based global navigation and precision timing systems are critical for modern infrastructure. A...
The appearance of the frequency comb technology, awarded the Nobel Prize in Physics 2005, has enormo...
Since the advent of the laser, more than forty years ago, the development of narrow-band single-freq...
The SI second is currently defined through the ground-state hyperfine transition frequency of the ce...
Over the last few years, there has been a remarkable convergence among the fields of ultrafast optic...
In this work we describe two optical frequency comb systems based on homemade high-repetition rate m...
Abstract. Recent progress in precision control of pulse repetition rate and carrier-envelope phase o...
Surprising as it might seem, it is possible to phase-coherently track, synthesize, count and divide ...