Ultrafast Science, Volume. 3, Issue 1, 0027(2023)
Rapid-Scan Nonlinear Time-Resolved Spectroscopy over Arbitrary Delay Intervals
[2] [2] Bredenbeck J, Helbing J, Sieg A, Schrader T, Zinth W, Renner C, Behrendt R, Moroder L, Wachtveitl J, Hamm P. Picosecond conformational transition and equilibration of a cyclic peptide. Proc Natl Acad Sci U S A. 2003;100(11):6452–6457.
[4] [4] Weingarten KJ, Rodwell MJW, Heinrich HK, Kolner BH, Bloom DM. Direct electro-optic sampling of GaAs integrated circuits. Electron Lett. 1985;21(17):765–766.
[5] [5] Elzinga PA, Kneisler RJ, Lytle FE, Jiang Y, King GB, Laurendeau NM. Pump/probe method for fast analysis of visible spectral signatures utilizing asynchronous optical sampling. Appl Opt. 1987;26(19):4303–4309.
[7] [7] Coddington I, Newbury N, Swann W. Dual-comb spectroscopy. Optica. 2016;3(4):414–426.
[8] [8] de Boeij WP, Wiersma DA. Ultrafast solvation dynamics explored by nonlinear optical spectroscopy [thesis]. [Groningen]: University of Groningen; 1997.
[9] [9] Bredenbeck J, Helbing J, Hamm P. Continuous scanning from picoseconds to microseconds in time resolved linear and nonlinear spectroscopy. Rev Sci Instrum. 2004;75(11):4462–4466.
[11] [11] Fourkas JT, Dhar L, Nelson KA, Trebino R. Spatially encoded, single-shot ultrafast spectroscopies. J Opt Soc Am B. 1995;12(1):155–165.
[12] [12] Greetham GM, Donaldson PM, Nation C, Sazanovich Iv, Clark IP, Shaw DJ, Parker AW, Towrie M. A 100 kHz time-resolved multiple-probe femtosecond to second infrared absorption spectrometer. Appl Spectrosc. 2016;70(4):645–653.
[13] [13] Antonucci L, Solinas X, Bonvalet A, Joffre M. Asynchronous optical sampling with arbitrary detuning between laser repetition rates. Opt Express. 2012;20(16):17928–17937.
[14] [14] Antonucci L, Bonvalet A, Solinas X, Daniault L, Joffre M. Arbitrary-detuning asynchronous optical sampling with amplified laser systems. Opt Express. 2015;23(21):27931–27940.
[15] [15] Solinas X, Antonucci L, Bonvalet A, Joffre M. Multiscale control and rapid scanning of time delays ranging from picosecond to millisecond. Opt Express. 2017;25(15):17811–17819.
[17] [17] Shelton R, Ma L-S, Kapteyn H, Murnane M, Hall J, Ye J. Active synchronization and carrier phase locking of two separate mode-locked femtosecond lasers. J Mod Opt. 2002;49(3–4):401–409.
[18] [18] Gebs R, Klatt G, Janke C, Dekorsy T, Bartels A. High-speed asynchronous optical sampling with sub-50fs time resolution. Opt Express. 2010;18(6):5974–5983.
[20] [20] Richter JM, Branchi F, Valduga de Almeida Camargo F, Zhao B, Friend RH, Cerullo G, Deschler F. Ultrafast carrier thermalization in lead iodide perovskite probed with two-dimensional electronic spectroscopy. Nat Commun. 2017;8: Article 376.
[23] [23] Phillips CR, Willenberg B, Nussbaum-Lapping A, Callegari F, Camenzind SL, Pupeikis J, Keller U. Coherently averaged dual-comb spectroscopy with a low-noise and high-power free-running gigahertz dual-comb laser. Optics Express. 2023;31(5):7103.
Get Citation
Copy Citation Text
Tobias Flöry, Vinzenz Stummer, Justinas Pupeikis, Benjamin Willenberg, Alexander Nussbaum-Lapping, Edgar Kaksis, Franco V. A. Camargo, Martynas Barkauskas, Christopher R. Phillips, Ursula Keller, Giulio Cerullo, Audrius Pugžlys, Andrius Baltuška. Rapid-Scan Nonlinear Time-Resolved Spectroscopy over Arbitrary Delay Intervals[J]. Ultrafast Science, 2023, 3(1): 0027
Category: Research Articles
Received: Dec. 14, 2022
Accepted: Mar. 29, 2023
Published Online: Dec. 4, 2023
The Author Email: Flöry Tobias (tobias.floery@tuwien.ac.at)