Add to ORKGThis paper presents the developed training and research laboratory equipment in laser physics including an yttrium aluminum garnet laser, continuous-wave and pulsed semiconductor lasers, systems for recording the temporal and energy characteristics of lasing, high-speed photodetectors, current generators of light-emitting and laser diodes, photodiode current meters, original sets of mechanic, optic, and fiber-optic elements. All the devices feature the latest trends in design and offer the possibilities for the electronic control enabling one to perform 13 laboratory works in laser physics, nonlinear and fiber optics. In the process of laboratory works students can study the modes of free running, active and passive Q-switching, mode locki...
Fiber lasers are one of the most spectacular achievements of contemporary optoelectronics and photon...
This book covers the fundamental aspects of fiber lasers and fiber amplifiers, and includes a wide r...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
The objective of this study is to develop Physics laboratory activities using LASER. However, before...
The five years that have intervened since the appearance of the third edition of OPTICAL ELECTRONICS...
This lab activity, presented by John Chamberlain, demonstrates the measurement of the power and irra...
This extended and revised edition will serve as a concise, self-contained, up-to-date introduction t...
Lasers: Fundamentals and Applications, serves as a vital textbook to accompany undergraduate and gra...
This lab activity, presented by John Chamberlain, teaches students to measure the power transmitted ...
In a previous paper we described details of the construction of stabilized 670-nm diode lasers for u...
This lab activity, presented by John Chamberlain, covers the process of calculating the speed of a r...
Summarization: In this paper, the content of two laboratory courses developed at the Department of E...
This course introduces the key aspects of lasers and other optical devices that are used in a variet...
Recent advances in cladding-pumped fiber lasers and amplifiers have been dramatic, leading to unprec...
This contribution informs about the increasing usage of laser systems in various industrial applicat...
Fiber lasers are one of the most spectacular achievements of contemporary optoelectronics and photon...
This book covers the fundamental aspects of fiber lasers and fiber amplifiers, and includes a wide r...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
The objective of this study is to develop Physics laboratory activities using LASER. However, before...
The five years that have intervened since the appearance of the third edition of OPTICAL ELECTRONICS...
This lab activity, presented by John Chamberlain, demonstrates the measurement of the power and irra...
This extended and revised edition will serve as a concise, self-contained, up-to-date introduction t...
Lasers: Fundamentals and Applications, serves as a vital textbook to accompany undergraduate and gra...
This lab activity, presented by John Chamberlain, teaches students to measure the power transmitted ...
In a previous paper we described details of the construction of stabilized 670-nm diode lasers for u...
This lab activity, presented by John Chamberlain, covers the process of calculating the speed of a r...
Summarization: In this paper, the content of two laboratory courses developed at the Department of E...
This course introduces the key aspects of lasers and other optical devices that are used in a variet...
Recent advances in cladding-pumped fiber lasers and amplifiers have been dramatic, leading to unprec...
This contribution informs about the increasing usage of laser systems in various industrial applicat...
Fiber lasers are one of the most spectacular achievements of contemporary optoelectronics and photon...
This book covers the fundamental aspects of fiber lasers and fiber amplifiers, and includes a wide r...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...