Dual-Oscillator Field-Resolved Infrared Spectroscopy with Individual-Scan Referencing

Abhijit Maity; Abhijit Maity; Abhijit Maity; Wolfgang Schweinberger; Wolfgang Schweinberger; Wolfgang Schweinberger; Christina Hofer; Christina Hofer; Christina Hofer; Sarah Hutter; Sebastian Gröbmeyer; Dionysios Potamianos; Dionysios Potamianos; Dionysios Potamianos; Michael Trubetskov; Hojjat Heydarian; Marinus Huber; Marinus Huber; Maciej Kowalczyk; Maciej Kowalczyk; Maciej Kowalczyk; Philipp Steinleitner; Zheng Wei; Zheng Wei; Alfred Leitenstorfer; Ioachim Pupeza; Ioachim Pupeza; Ioachim Pupeza; Ferenc Krausz; Ferenc Krausz; Ferenc Krausz; Alexander Weigel; Alexander Weigel

Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023)
Technical Digest Series (Optica Publishing Group, 2023),
paper pd_1_4

Dual-Oscillator Field-Resolved Infrared Spectroscopy with Individual-Scan Referencing

Abhijit Maity, Wolfgang Schweinberger, Christina Hofer, Sarah Hutter, Sebastian Gröbmeyer, Dionysios Potamianos, Michael Trubetskov, Hojjat Heydarian, Marinus Huber, Maciej Kowalczyk, Philipp Steinleitner, Zheng Wei, Alfred Leitenstorfer, Ioachim Pupeza, Ferenc Krausz, and Alexander Weigel

European Quantum Electronics Conference 2023

Munich Germany
26–30 June 2023
ISBN: 979-8-3503-4599-5

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Postdeadline session I: Beam and pulse control and quantum physics (pd_1)

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A. Maity, W. Schweinberger, C. Hofer, S. Hutter, S. Gröbmeyer, D. Potamianos, M. Trubetskov, H. Heydarian, M. Huber, M. Kowalczyk, P. Steinleitner, Z. Wei, A. Leitenstorfer, I. Pupeza, F. Krausz, and A. Weigel, "Dual-Oscillator Field-Resolved Infrared Spectroscopy with Individual-Scan Referencing," in Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023), Technical Digest Series (Optica Publishing Group, 2023), paper pd_1_4.

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Abstract

Field-resolved infrared spectroscopy (FRS) with electro-optic sampling (EOS) has evolved as a powerful alternative to conventional intensity-based infrared absorption measurements [1]. It allows to capture the response field of a molecular sample emitted upon vibrational excitation with an ultrashort infrared pulse, directly in the time domain. The temporal separation of excitation and molecular response enables background-free detection of the sample-specific signal via temporal filtering. In order to additionally reduce the influence of low-frequency noise of the mid-infrared (mid-IR) excitation, ultra-rapid EOS detection at multi-kHz scan rates has been implemented with mechanical [2] and dual-oscillator [3] approaches. Here, we present a dual-oscillator FRS instrument, recording broadband mid-IR EOS traces simultaneously in sample and reference channels, at a scan rate of 4.2 kHz. With full spectroscopic referencing on the individual-scan basis, the system can correct sample measurements for fast fluctuations and long-term drifts of the mid-IR excitation pulses.

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