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Laser Power Stabilization via Radiation Pressure
Laser Power Stabilization via Radiation Pressure
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Excellent- More about Laser Power Stabilization via Radiation Pressure
A new scheme is presented to stabilize the power of a laser on a level needed for high precision metrology experiments by sensing power fluctuations via the radiation pressure driven motion they induce on a micro-oscillator mirror. The technique can result in higher signals for power fluctuations than direct power detection and enables the generation of a strong bright squeezed beam.
Format: Paperback / softback
Length: 154 pages
Publication date: 27 April 2023
Publisher: Springer Nature Switzerland AG
This groundbreaking book provides a comprehensive and in-depth exploration of a novel approach to stabilizing the power of a laser on a level essential for high precision metrology experiments. The innovative aspect of this scheme lies in its ability to sense power fluctuations through the radiation pressure-driven motion they induce on a micro-oscillator mirror. Through rigorous theoretical calculations, it is demonstrated that the proposed technique not only yields higher signals for power fluctuations but also enables the generation of a robust and intense bright squeezed beam.
The book begins by delving into the fundamentals of power stabilization and offering a comprehensive overview of the current state-of-the-art in this field. It then proceeds to present detailed theoretical calculations that substantiate the advantages of the proposed scheme. Finally, a proof-of-principle experiment is described, showcasing the successful implementation of the new approach, and its results are analyzed in great detail.
The remarkable success of the work presented here lays the foundation for achieving exceptional power stability in future experiments, particularly those involving high precision metrology applications such as gravitational wave detectors and optomechanical experiments. Furthermore, this book has been nominated as an outstanding PhD thesis by the Gravitational Wave International Committee, highlighting its significant contributions to the field.
Weight: 279g
Dimension: 235 x 155 (mm)
ISBN-13: 9783030958701
Edition number: 1st ed. 2022
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