Abstract
State of the art nonlinear microscopes are based on non-regeneratively amplified fs-laser having a typical repetition rate of ν ≈ 80 MHz and a maximum energy per pulse of Ep ≈ 100nJ. In this work the use of a different type of laser technology, the one of regeneratively amplified laser, is explored. These systems can deliver pulse energies up to Ep ≈ 1 mJ with a repetition rate up to ≈ 1 MHz. This choice was already proven to be beneficial to improve the imaging depth [1] but it brings other unexplored advantages, which are the heart of the recently conceived Tunable hIGh EneRgy (TIGER) microscope [2].
© 2023 IEEE
PDF ArticleMore Like This
Laura Vittadello, Jan Klenen, Mirco Imlau, Karsten Koempe, Christian Meyer, and Achim Paululat
EM3B.5 European Conference on Biomedical Optics (ECBO) 2021
A. Alangattuthodi, M. Emons, R. Fabbri, J. Meier, J. Montano, R. Secareanu, S. Venkatesan, U. Wegner, D. Rompotis, M. Lederer, M. Meyer, T. Mullins, and D. E. Rivas
ee_4_3 European Quantum Electronics Conference (EQEC) 2023
Laura Vittadello, Jan Klenen, and Mirco Imlau
NF1B.5 Nonlinear Optics (NLO) 2021