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187 results on '"Schmidt, Bruno E."'

1. High-power femtosecond molecular broadening and the effects of ro-vibrational coupling

Author

Watson, Kevin, Saule, Tobias, Ivanov, Maksym, Schmidt, Bruno E., Rodnova, Zhanna, Gibson, George, Berrah, Nora, and Trallero, Carlos

Subjects
Physics - Optics
Abstract

Scaling spectral broadening to higher pulse energies and average powers, respectively, is a critical step in ultrafast science, especially for narrowband Yb based solid state lasers which become the new state of the art. Despite their high nonlinearity, molecular gases as the broadening medium inside hollow core fibers have been limited to 25 W, at best. We demonstrate spectral broadening in nitrogen at ten-fold average powers up to 250W with repetition rates from 25 to 200kHz. The observed ten-fold spectral broadening is stronger compared to the more expensive krypton gas and enables pulse compression from 1.3ps to 120fs. We identified an intuitive explanation for the observed average power scaling based on the density of molecular ro vibrational states of Raman active molecules. To verify this ansatz, spectral broadening limitations in O2 and N2O are experimentally measured and agree well. On these grounds we propose a new perspective on the role, suitability, and limits of stimulated Raman scattering at high average and peak powers. Finally, high harmonic generation is demonstrated at 200 kHz.

Published
2024

2. Imaging Ultrafast Dissociation Dynamics: OCS & Roaming in Formaldehyde

Author

Endo, Tomoyuki, Neville, Simon P., Ziems, Karl Michael, Lassonde, Philippe, Qu, Chen, Schmidt, Bruno E., Fujise, Hikaru, Fushitani, Mizuho, Hishikawa, Akiyoshi, Gräfe, Stefanie, Houston, Paul L., Bowman, Joel M., Schuurman, Michael S., Légaré, François, Ibrahim, Heide, Argenti, Luca, editor, Chini, Michael, editor, and Fang, Li, editor

Published
2024
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3. High average power ultrafast laser technologies for driving future advanced accelerators

Author

Kiani, Leily, Zhou, Tong, Bahk, Seung-Whan, Bromage, Jake, Bruhwiler, David, Campbell, E. Michael, Chang, Zenghu, Chowdhury, Enam, Downer, Michael, Du, Qiang, Esarey, Eric, Galvanauskas, Almantas, Galvin, Thomas, Hafner, Constantin, Hoffmann, Dieter, Joshi, Chan, Kanskar, Manoj, Lu, Wei, Menoni, Carmen, Messerly, Michael, Mirov, Sergey B., Palmer, Mark, Pogorelsky, Igor, Polyanskiy, Mikhail, Power, Erik, Reagan, Brendan, Rocca, Jorge, Rothenberg, Joshua, Schmidt, Bruno E., Sistrunk, Emily, Spinka, Thomas, Tochitsky, Sergei, Vafaei-Najafabadi, Navid, van Tilborg, Jeroen, Wilcox, Russell, Zuegel, Jonathan, and Geddes, Cameron

Subjects
Physics - Accelerator Physics, High Energy Physics - Experiment
Abstract

Large scale laser facilities are needed to advance the energy frontier in high energy physics and accelerator physics. Laser plasma accelerators are core to advanced accelerator concepts aimed at reaching TeV electron electron colliders. In these facilities, intense laser pulses drive plasmas and are used to accelerate electrons to high energies in remarkably short distances. A laser plasma accelerator could in principle reach high energies with an accelerating length that is 1000 times shorter than in conventional RF based accelerators. Notionally, laser driven particle beam energies could scale beyond state of the art conventional accelerators. LPAs have produced multi GeV electron beams in about 20 cm with relative energy spread of about 2 percent, supported by highly developed laser technology. This validates key elements of the US DOE strategy for such accelerators to enable future colliders but extending best results to date to a TeV collider will require lasers with higher average power. While the per pulse energies envisioned for laser driven colliders are achievable with current lasers, low laser repetition rates limit potential collider luminosity. Applications will require rates of kHz to tens of kHz at Joules of energy and high efficiency, and a collider would require about 100 such stages, a leap from current Hz class LPAs. This represents a challenging 1000 fold increase in laser repetition rates beyond current state of the art. This whitepaper describes current research and outlook for candidate laser systems as well as the accompanying broadband and high damage threshold optics needed for driving future advanced accelerators., Comment: contribution to Snowmass 2021

Published
2022

4. Generation of high harmonics from silicon

Author

Vampa, Giulio, Hammond, Thomas J., Thiré, Nicolas, Schmidt, Bruno E., Légaré, Francois, Klug, Dennis D., and Corkum, Paul B.

Subjects
Physics - Optics
Abstract

We generate high-order harmonics of a mid-infrared laser from a silicon single crystal and find their origin in the recollision of coherently accelerated electrons with their holes, analogously to the atomic and molecular case, and to ZnO [Vampa et al., Nature 522, 462-464 (2015)], a direct bandgap material. Therefore indirect bandgap materials are shown to sustain the recollision process as well as direct bandgap materials. Furthermore, we find that the generation is perturbed with electric fields as low as 30 V/$\mu$m, equal to the DC damage threshold. Our results extend high-harmonic spectroscopy to the most technologically relevant material, and open the possibility to integrate high harmonics with conventional electronics.

Published
2016

5. Linearizing nonlinear optics

Author

Schmidt, Bruno E., Lassonde, Philippe, Ernotte, Guilmot, Clerici, Matteo, Morandotti, Roberto, Ibrahim, Heide, and Legare, Francois

Subjects
Physics - Optics
Abstract

In the framework of linear optics, light fields do not interact with each other in a medium. Yet, when their field amplitude becomes comparable to the electron binding energies of matter, the nonlinear motion of these electrons emits new dipole radiation whose amplitude, frequency and phase differ from the incoming fields. Such high fields are typically achieved with ultra-short, femtosecond (1fs = 10-15 sec.) laser pulses containing very broad frequency spectra. Here, the matter not only couples incoming and outgoing fields but also causes different spectral components to interact and mix through a convolution process. In this contribution, we describe how frequency domain nonlinear optics overcomes the shortcomings arising from this convolution in conventional time domain nonlinear optics1. We generate light fields with previously inaccessible properties because the uncontrolled coupling of amplitudes and phases is turned off. For example, arbitrary phase functions are transferred linearly to the second harmonic frequency while maintaining the exact shape of the input power spectrum squared. This nonlinear control over output amplitudes and phases opens up new avenues for applications based on manipulation of coherent light fields. One could investigate c.f. the effect of tailored nonlinear perturbations on the evolution of discrete eigenmodes in Anderson localization2. Our approach might also open a new chapter for controlling electronic and vibrational couplings in 2D-spectroscopy3 by the geometrical optical arrangement.

Published
2016

6. Tabletop imaging of structural evolutions in chemical reactions

Author

Ibrahim, Heide, Wales, Benji, Beaulieu, Samuel, Schmidt, Bruno E., Thiré, Nicolas, Bisson, Éric, Hebeisen, Christoph T., Wanie, Vincent, Giguére, Mathieu, Kieffer, Jean-Claude, Sanderson, Joseph, Schuurman, Michael S., and Légaré, François

Subjects
Physics - Chemical Physics
Abstract

The introduction of femto-chemistry has made it a primary goal to follow the nuclear and electronic evolution of a molecule in time and space as it undergoes a chemical reaction. Using Coulomb Explosion Imaging we have shot the first high-resolution molecular movie of a to and fro isomerization process in the acetylene cation. So far, this kind of phenomenon could only be observed using VUV light from a Free Electron Laser [Phys. Rev. Lett. 105, 263002 (2010)]. Here we show that 266 nm ultrashort laser pulses are capable of initiating rich dynamics through multiphoton ionization. With our generally applicable tabletop approach that can be used for other small organic molecules, we have investigated two basic chemical reactions simultaneously: proton migration and C=C bond-breaking, triggered by multiphoton ionization. The experimental results are in excellent agreement with the timescales and relaxation pathways predicted by new and definitively quantitative ab initio trajectory simulations.

Published
2014
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8. Scaling mechanism for efficient wavelength conversion in laser plasmas

Author

Clerici, Matteo, Peccianti, Marco, Schmidt, Bruno E., Caspani, Lucia, Shalaby, Mostafa, Giguère, Mathieu, Lotti, Antonio, Couairon, Arnaud, Légaré, François, Ozaki, Tsuneyuki, Faccio, Daniele, and Morandotti, Roberto

Subjects
Physics - Optics
Abstract

Laser-induced ionization is a fundamental tool for the frequency conversion of lasers into spectral regions so far inaccessible, including both extreme ultraviolet and terahertz. The low-frequency currents induced by laser-driven ionization generate extremely broadband, single-cycle terahertz pulses, with applications ranging from remote sensing to optical pulse diagnostic, yet strong limitations arise from the low conversion efficiencies of this mechanism. We show a remarkable increase of the radiated terahertz energy with the laser wavelength and we relate this observation to the stronger action of long-wavelength fields on ionization-induced free-carriers. Ultimately, the use of mid-infrared pulses instead of the near-infrared ones employed so far enables the unprecedented table-top generation of the extremely high terahertz fields (>4 MV/cm) required for, e.g. the optical manipulation of quantum states, attosecond pulse synthesis and time-resolved studies of ultrafast electron dynamics. Furthermore, such high fields allowed us to perform space-time resolved terahertz diagnostics exploiting standard optical components.

Published
2012

11. High average power ultrafast laser technologies for driving future advanced accelerators

Author

Kiani, Leily, primary, Zhou, Tong, additional, Bahk, Seung-Whan, additional, Bromage, Jake, additional, Bruhwiler, David, additional, Campbell, E. Michael, additional, Chang, Zenghu, additional, Chowdhury, Enam, additional, Downer, Michael, additional, Du, Qiang, additional, Esarey, Eric, additional, Galvanauskas, Almantas, additional, Galvin, Thomas, additional, Häfner, Constantin, additional, Hoffmann, Dieter, additional, Joshi, Chan, additional, Kanskar, Manoj, additional, Lu, Wei, additional, Menoni, Carmen, additional, Messerly, Michael, additional, Mirov, Sergey B., additional, Palmer, Mark, additional, Pogorelsky, Igor, additional, Polyanskiy, Mikhail, additional, Power, Erik, additional, Reagan, Brendan, additional, Rocca, Jorge, additional, Rothenberg, Joshua, additional, Schmidt, Bruno E., additional, Sistrunk, Emily, additional, Spinka, Thomas, additional, Tochitsky, Sergei, additional, Vafaei-Najafabadi, Navid, additional, van Tilborg, Jeroen, additional, Wilcox, Russell, additional, Zuegel, Jonathan, additional, and Geddes, Cameron, additional

Published
2023
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13. Imaging and controlling ultrafast dissociation dynamics: from conventional to surprising paths

Author

Endo, Tomoyuki, primary, Neville, Simon, additional, Lassonde, Philippe, additional, Qu, Chen, additional, Schmidt, Bruno E., additional, Fushitani, Mizuho, additional, Hishikawa, Akiyoshi, additional, Houston, Paul L., additional, Bowman, Joel M., additional, Schuurman, Michael, additional, Légaré, François, additional, and Ibrahim, Heide, additional

Published
2023
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16. Multimodal hollow-core fibers: a new route for few-cycle visible pulse generation

Author

Piccoli, Riccardo, primary, Brown, Jeffrey M., additional, Jeong, Young-Gyun, additional, Rovere, Andrea, additional, Zanotto, Luca, additional, Gaarde, Mette B., additional, Légaré, Francois, additional, Couairon, Arnaud, additional, Travers, John C., additional, Morandotti, Roberto, additional, Schmidt, Bruno E., additional, and Razzari, Luca, additional

Published
2022
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17. Directional control of dissociative ionization by a two-colour laser field

Author

Wanie Vincent, Ibrahim Heide, Beaulieu Samuel, Thiré Nicolas, Schmidt Bruno E., Deng Yunpei, Alnaser Ali S., Litvinyuk Igor V., Tong Xiao-Min, and Légaré François

Subjects
Physics, QC1-999
Abstract

Using asymmetric two-color laser fields composed of 1800 and 900nm, we have simultaneously controlled four well identified fragmentation channels in dissociative ionization of the hydrogen molecule, resulting in enhanced electron-localization sensitivities of up to 65%.

Published
2019
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19. Guiding of Laser Pulses at the Theoretical Limit – 97% Throughput Hollow-Core Fibers – with subsequent compression to 1.3 cycles

Author

Jeong, Young-Gyun, primary, Labranche, Alexis, additional, Piccoli, Riccardo, additional, Rovere, Andrea, additional, Zanotto, Luca, additional, Tempea, Gabriel, additional, Wilson, Derrek, additional, Ivanov, Maksym, additional, Ramirez, Alicia, additional, Morandotti, Roberto, additional, Légaré, François, additional, Razzari, Luca, additional, and Schmidt, Bruno E., additional

Published
2022
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20. 1.5mJ, 30W OPCPA at 2um

Author

Schmidt, Bruno E, primary, Wilson, Derrek, additional, Ivanov, Maksym, additional, Abdolghader, Pedram, additional, Raffray, Antoine, additional, Balciunas, Tadas, additional, Légaré, François, additional, and Wörner, Hans Jakob, additional

Published
2022
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24. Tabletop Imaging of Structural Evolutions in Chemical Reactions

Author

Ibrahim, Heide, primary, Wales, Benji, additional, Beaulieu, Samuel, additional, Schmidt, Bruno E., additional, Thiré, Nicolas, additional, Fowe, Emmanuel P., additional, Bisson, Éric, additional, Hebeisen, Christoph T., additional, Wanie, Vincent, additional, Giguére, Mathieu, additional, Kieffer, Jean-Claude, additional, Spanner, Michael, additional, Bandrauk, André D., additional, Sanderson, Joseph, additional, Schuurman, Michael S., additional, and Légaré, François, additional

Published
2015
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26. On the measurement of statistical dynamics using the method of Coulomb explosion imaging

Author

Endo, Tomoyuki, primary, Neville, Simon P., additional, Wanie, Vincent, additional, Beaulieu, Samuel, additional, Qu, Chen, additional, Lassonde, Philippe, additional, Schmidt, Bruno E., additional, Fujise, Hikaru, additional, Fushitani, Mizuho, additional, Hishikawa, Akiyoshi, additional, Houston, Paul L., additional, Bowman, Joel M., additional, Schuurman, Michael S., additional, Légaré, François, additional, and Ibrahim, Heide, additional

Published
2021
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28. Capturing roaming molecular fragments in real time

Author

Endo, Tomoyuki, primary, Neville, Simon P., additional, Wanie, Vincent, additional, Beaulieu, Samuel, additional, Qu, Chen, additional, Deschamps, Jude, additional, Lassonde, Philippe, additional, Schmidt, Bruno E., additional, Fujise, Hikaru, additional, Fushitani, Mizuho, additional, Hishikawa, Akiyoshi, additional, Houston, Paul L., additional, Bowman, Joel M., additional, Schuurman, Michael S., additional, Légaré, François, additional, and Ibrahim, Heide, additional

Published
2020
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31. Capturing Roaming Fragments in Real Time: A Molecular Road Movie

Author

Endo, Tomoyuki, primary, Neville, Simon P., additional, Wanie, Vincent, additional, Beaulieu, Samuel, additional, Qu, Chen, additional, Deschamps, Jude, additional, Lassonde, Philippe, additional, Schmidt, Bruno E., additional, Fujise, Hikaru, additional, Fushitani, Mizuho, additional, Hishikawa, Akiyoshi, additional, Houston, Paul L., additional, Bowman, Joel M., additional, Schuurman, Michael S., additional, Légaré, François, additional, and Ibrahim, Heide, additional

Published
2020
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33. On the measurement of statistical dynamics using the method of Coulomb explosion imaging.

Author

Endo, Tomoyuki, Neville, Simon P., Wanie, Vincent, Beaulieu, Samuel, Qu, Chen, Lassonde, Philippe, Schmidt, Bruno E., Fujise, Hikaru, Fushitani, Mizuho, Hishikawa, Akiyoshi, Houston, Paul L., Bowman, Joel M., Schuurman, Michael S., Légaré, François, Ibrahim, Heide, Simos, Theodore, Kalogiratou, Zacharoula, and Monovasilis, Theodore

Subjects
COULOMB explosion, STATISTICAL measurement, FORMALDEHYDE
Abstract

Using time-resolved Coulomb explosion imaging (CEI) in an ultraviolet (UV) pump near infrared (NIR) probe experiment, we directly image the different dissociation dynamics in the formaldehyde molecule. Different pathways are distinguished from each other, despite their statistical nature. To extract such dynamics, hidden in a statistical background, calls for an elimination of noise. In our approach, we take advantage of CEI being a quasi-background-free technique. [ABSTRACT FROM AUTHOR]

Published
2020
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37. Molecular gases for pulse compression in hollow core fibers

Author

Haddad, Elissa, primary, Safaei, Reza, additional, Leblanc, Adrien, additional, Piccoli, Riccardo, additional, Jeong, Young-Gyun, additional, Ibrahim, Heide, additional, Schmidt, Bruno E., additional, Morandotti, Roberto, additional, Razzari, Luca, additional, Légaré, François, additional, and Lassonde, Philippe, additional

Published
2018
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38. High power hollow-core fiber compression of Yb lasers as ideal drivers for HHG

Author

Cardin, Vincent, primary, Jeong, Young-Gyun, additional, Fan, Guangyu, additional, Balciunas, Tadas, additional, Piccoli, Riccardo, additional, Ferachou, Denis, additional, Limpert, Jens, additional, Hädrich, Steffen, additional, Morandotti, Roberto, additional, Wörner, Hans Jakob, additional, Razzari, Luca, additional, Légaré, François, additional, Baltuska, Andrius, additional, and Schmidt, Bruno E., additional

Published
2018
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40. Hydrofluorocarbon Gases for Pulse Compression in Hollow Core Fibers

Author

Haddad, Elissa, primary, Safaei, Reza, additional, Leblanc, Adrien, additional, Piccoli, Riccardo, additional, Jeong, Young-Gyun, additional, Ibrahim, Heide, additional, Schmidt, Bruno E., additional, Morandotti, Roberto, additional, Razzari, Luca, additional, Légaré, François, additional, and Lassonde, Philippe, additional

Published
2018
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45. Frequency domain Nonlinear Optics

Author

Schmidt, Bruno E., primary, Gruson, Vincent, additional, Lassonde, Philippe, additional, Ernotte, Guilmot, additional, Leblanc, Adrien, additional, Clerici, Matteo, additional, Morandotti, Roberto, additional, DiMauro, Louis, additional, Corkum, Paul B., additional, Ibrahim, Heide, additional, and Légaré, François, additional

Published
2017
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48. Linearizing Nonlinear Optics

Author

Schmidt, Bruno E., primary, Lassonde, Philippe, additional, Ernotte, Guilmot, additional, Clerici, Matteo, additional, Morandotti, Roberto, additional, Ibrahim, Heide, additional, and Légaré, François, additional

Published
2017
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