Glass machining and in-situ metrology: Recovery of spatio-temporal phase distribution from 2-dimensional interference fringe movement caused by irradiation of glass with ultra-short laser pulses at high pulse repetition rates

Cvecek K, Heberle J, Bergler M, Miyamoto I, de Ligny D, Schmidt M (2019)

Publication Type: Conference contribution

Publication year: 2019

Publisher: OSA - The Optical Society

Book Volume: Part F127-CLEO_AT 2019

Conference Proceedings Title: Optics InfoBase Conference Papers

Event location: San Jose, CA

ISBN: 9781557528209

DOI: 10.1364/CLEO_AT.2019.ATu3I.1

Abstract

An interferometry-based method for direct observation of phase modifications caused by transient temperature and pressure changes during irradiation of glass using ultra-short laser pulses is shown. The method provides a 3-dimensional time-resolved phase distribution and allows to distinguish between reversible and irreversible laser induced phase changes inside the glass.

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How to cite

APA:

Cvecek, K., Heberle, J., Bergler, M., Miyamoto, I., de Ligny, D., & Schmidt, M. (2019). Glass machining and in-situ metrology: Recovery of spatio-temporal phase distribution from 2-dimensional interference fringe movement caused by irradiation of glass with ultra-short laser pulses at high pulse repetition rates. In Optics InfoBase Conference Papers. San Jose, CA, US: OSA - The Optical Society.

MLA:

Cvecek, Kristian, et al. "Glass machining and in-situ metrology: Recovery of spatio-temporal phase distribution from 2-dimensional interference fringe movement caused by irradiation of glass with ultra-short laser pulses at high pulse repetition rates." Proceedings of the CLEO: Applications and Technology, CLEO_AT 2019, San Jose, CA OSA - The Optical Society, 2019.

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