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30 results on '"Gaumnitz, Thomas"'

1. All-XUV Pump-Probe Transient Absorption Spectroscopy of the Structural Molecular Dynamics of Di-iodomethane

Author

Rebholz, Marc, Ding, Thomas, Despré, Victor, Aufleger, Lennart, Hartmann, Maximilian, Meyer, Kristina, Stooß, Veit, Magunia, Alexander, Wachs, David, Birk, Paul, Mi, Yonghao, Borisova, Gergana Dimitrova, da Costa Castanheira, Carina, Rupprecht, Patrick, Schmid, Georg, Schnorr, Kirsten, Schröter, Claus Dieter, Moshammer, Robert, Loh, Zhi-Heng, Attar, Andrew R, Leone, Stephen R, Gaumnitz, Thomas, Wörner, Hans Jakob, Roling, Sebastian, Butz, Marco, Zacharias, Helmut, Düsterer, Stefan, Treusch, Rolf, Brenner, Günter, Vester, Jonas, Kuleff, Alexander I, Ott, Christian, and Pfeifer, Thomas

Subjects
Atomic, Molecular and Optical Physics, Physical Sciences, Astronomical and Space Sciences, Condensed Matter Physics, Quantum Physics, Physical sciences
Abstract

In this work, we use an extreme-ultraviolet (XUV) free-electron laser (FEL) to resonantly excite the I: 4d5/2-σ∗ transition of a gas-phase di-iodomethane (CH2I2) target. This site-specific excitation generates a 4d core hole located at an iodine site, which leaves the molecule in a well-defined excited state. We subsequently measure the time-dependent absorption change of the molecule with the FEL probe spectrum centered on the same I: 4d resonance. Using ab initio calculations of absorption spectra of a transient isomerization pathway observed in earlier studies, our time-resolved measurements allow us to assign the timescales of the previously reported direct and indirect dissociation pathways. The presented method is thus sensitive to excited-state molecular geometries in a time-resolved manner, following a core-resonant site-specific trigger.

Published
2021

2. Nonlinear coherence effects in transient-absorption ion spectroscopy with stochastic extreme-ultraviolet free-electron laser pulses

Author

Ding, Thomas, Rebholz, Marc, Aufleger, Lennart, Hartmann, Maximilian, Meyer, Kristina, Stooss, Veit, Magunia, Alexander, Wachs, David, Birk, Paul, Mi, Yonghao, Borisova, Gergana D., Castanheira, Carina da Costa, Rupprecht, Patrick, Loh, Zhi-Heng, Attar, Andrew R., Gaumnitz, Thomas, Roling, Sebastian, Butz, Marco, Zacharias, Helmut, Düsterer, Stefan, Treusch, Rolf, Cavaletto, Stefano M., Ott, Christian, and Pfeifer, Thomas

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

We demonstrate time-resolved nonlinear extreme-ultraviolet absorption spectroscopy on multiply charged ions, here applied to the doubly charged neon ion, driven by a phase-locked sequence of two intense free-electron laser pulses. Absorption signatures of resonance lines due to 2$p$--3$d$ bound--bound transitions between the spin-orbit multiplets $^3$P$_{0,1,2}$ and $^3$D$_{1,2,3}$ of the transiently produced doubly charged Ne$^{2+}$ ion are revealed, with time-dependent spectral changes over a time-delay range of $(2.4\pm0.3)\,\text{fs}$. Furthermore, we observe 10-meV-scale spectral shifts of these resonances owing to the AC Stark effect. We use a time-dependent quantum model to explain the observations by an enhanced coupling of the ionic quantum states with the partially coherent free-electron-laser radiation when the phase-locked pump and probe pulses precisely overlap in time.

Published
2019
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3. Strong-field extreme-ultraviolet dressing of atomic double excitation

Author

Ott, Christian, Aufleger, Lennart, Ding, Thomas, Rebholz, Marc, Magunia, Alexander, Hartmann, Maximilian, Stooß, Veit, Wachs, David, Birk, Paul, Borisova, Gergana D, Meyer, Kristina, Rupprecht, Patrick, Castanheira, Carina da Costa, Moshammer, Robert, Attar, Andrew R, Gaumnitz, Thomas, Loh, Zhi Heng, Düsterer, Stefan, Treusch, Rolf, Ullrich, Joachim, Jiang, Yuhai, Meyer, Michael, Lambropoulos, Peter, and Pfeifer, Thomas

Subjects
Physics - Atomic Physics
Abstract

We report on the experimental observation of strong-field dressing of an autoionizing two-electron state in helium with intense extreme-ultraviolet laser pulses from a free-electron laser. The asymmetric Fano line shape of this transition is spectrally resolved, and we observe modifications of the resonance asymmetry structure for increasing free-electron-laser pulse energy on the order of few tens of $\mu$J. A quantum-mechanical calculation of the time-dependent dipole response of this autoionizing state, driven by classical extreme-ultraviolet (XUV) electric fields, reveals a direct link between strong-field-induced energy and phase shifts of the doubly excited state and the Fano line-shape asymmetry. The experimental results obtained at the Free-Electron Laser in Hamburg (FLASH) thus correspond to transient energy shifts on the order of few meV, induced by strong XUV fields. These results open up a new way of performing non-perturbative XUV nonlinear optics for the light-matter interaction of resonant electronic transitions in atoms at short wavelengths., Comment: 16 pages, 3 figures

Published
2019
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4. Stabilizing isolated attosecond pulse formation by dispersion tuning

Author

Kothe, Alexander, Gaumnitz, Thomas, Henkel, Jost, Schneider, Joachim, Prandolini, Mark J., Hengster, Julia, Drescher, Markus, Lein, Manfred, and Uphues, Thorsten

Subjects
Physics - Optics
Abstract

The carrier envelop phase (CEP) of isolated attosecond pulses (IAPs) is theoretically and experimentally investigated based on the assumption that a significant contribution originates from the measurable CEP jitter of the driving laser. By solving the timedependent Schr\"odinger equation, it is demonstrated that the attosecond CEP jitter of IAPs is minimized when the driving pulse is near its Fourier limit but with slightly negative chirp. Although, at present the utilization of the CEP of IAPs has limited applications, understanding and characterization of the CEP jitter of IAPs is the first step towards exact control of the electric field of extreme ultraviolet (XUV) pulses

Published
2017
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5. Investigations of dynamic light scattering properties in fluorescent solution: A comprehensive study using plasmonic enhanced Flow-Cytometry

Author

Michelswirth, Martin, Hengster, Julia, Milde, Tobias, Gaumnitz, Thomas, Wagner, Natalie, Theato, Patrick, Liefeith, Klaus, and Uphues, Thorsten

Subjects
Physics - Optics
Abstract

In this article we present a new diagnostic approach utilizing flow-cytometry to study compounds of nanoparticle samples in solution by analysis of their scattering patterns retrieved from the cytometric measurements. As a specific enhancement of this technique we study as well the scattering pattern of nanoparticles in a fluorescent solution (529 nm). A significant enhancement of the cytometry measurements is observed supporting an improved separation of particle formations that are clearly resolved in the cytograms. The samples in this experiment are prepared from 80 nm citrate-capped gold nanoparticles (AuNP). They are stabilized providing 2-(dimethylamino)ethanol (DMAE) in the aqueous solution. A laser diode with a wavelength of 488 nm is used as fundamental illumination for the flow-cytometry measurements (FCM). Dynamic Light Scattering (DLS) measurements are performed separately and demonstrate a very good agreement with the Flow-Cytometry measurements both of which allow to give an effective size calibration. For further analysis light transport simulations are presented. They provide information on the key-process to form the correlation of the fluorescent solutions FCM to the studied particles of interest. From this we extract the volume nature of the scattering process ensuring the correlation.

Published
2017

6. Measuring the frequency chirp of extreme-ultraviolet free-electron laser pulses by transient absorption spectroscopy

Author

Ding, Thomas, Rebholz, Marc, Aufleger, Lennart, Hartmann, Maximilian, Stooß, Veit, Magunia, Alexander, Birk, Paul, Borisova, Gergana Dimitrova, Wachs, David, da Costa Castanheira, Carina, Rupprecht, Patrick, Mi, Yonghao, Attar, Andrew R., Gaumnitz, Thomas, Loh, Zhi-Heng, Roling, Sebastian, Butz, Marco, Zacharias, Helmut, Düsterer, Stefan, Treusch, Rolf, Eislage, Arvid, Cavaletto, Stefano M., Ott, Christian, and Pfeifer, Thomas

Published
2021
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8. Minimizing attosecond CEP jitter by carrier envelope phase tuning

Author

Prandolini Mark. J., Gaumnitz Thomas, Kothe Alexander, Henkel Jost, Schneider Joachim, Hengster Julia, Drescher Markus, Lein Manfred, and Uphues Thorsten

Subjects
Physics, QC1-999
Abstract

Minimizing the CEP jitter of isolated attosecond pulses (IAP) will be important for future applications. This jitter is experimentally and theoretically investigated and can be minimized when the driving pulse is near its Fourier limit but with slightly negative chirp. Thus, understanding and characterization of the CEP jitter of IAPs is a first step towards exact control of the electric field of IAP pulses.

Published
2019
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9. Complete characterisation of attosecond SXR pulses generated by MIR laser sources

Author

Gaumnitz Thomas, Jain Arohi, Huppert Martin, Jordan Inga, Ardana-Lamas Fernando, and Wörner Hans Jakob

Subjects
Physics, QC1-999
Abstract

Attosecond streaking with broadband SXR continua leads to contributions from multiple overlapping lines in the photoelectron spectrum. The Volkov-transform generalized projection algorithm (VTGPA) is generalised to include all contributing photoelectron bands (multi-line VTGPA) for the reconstruction of ultra-broadband SXR continua. We further investigate the influence of the collection angle of photoelectron detectors on attosecond streaking spectrograms and show full reconstruction for angle-integrated streaking traces. Also, the effects of the photoionization dipole matrix elements on the reconstruction are demonstrated.

Published
2019
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10. Electron spectroscopic study of nanoplasma formation triggered by intense soft x-ray pulses.

Author

Niozu, Akinobu, Yokono, Naomichi, Nishiyama, Toshiyuki, Fukuzawa, Hironobu, Sakurazawa, Tomohiro, Matsuda, Kazuhiro, Takanashi, Tsukasa, You, Daehyun, Li, Yiwen, Ono, Taishi, Gaumnitz, Thomas, Schöffler, Markus, Grundmann, Sven, Wada, Shin-ichi, Carpeggiani, Paolo, Xu, Wei Qing, Liu, Xiao Jing, Owada, Shigeki, Tono, Kensuke, and Togashi, Tadashi

Subjects
SOFT X rays, THERMAL electrons, ELECTRON emission, ELECTRON spectroscopy, ELECTRONS, FREE electron lasers, ULTRASHORT laser pulses
Abstract

Using electron spectroscopy, we investigated the nanoplasma formation process generated in xenon clusters by intense soft x-ray free electron laser (FEL) pulses. We found clear FEL intensity dependence of electron spectra. Multistep ionization and subsequent ionization frustration features are evident for the low FEL-intensity region, and the thermal electron emission emerges at the high FEL intensity. The present FEL intensity dependence of the electron spectra is well addressed by the frustration parameter introduced by Arbeiter and Fennel [New J. Phys. 13, 053022 (2011)]. [ABSTRACT FROM AUTHOR]

Published
2019
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12. XUV pump–XUV probe transient absorption spectroscopy at FELs

Author

Ding, Thomas, primary, Rebholz, Marc, additional, Aufleger, Lennart, additional, Hartmann, Maximilian, additional, Stooß, Veit, additional, Magunia, Alexander, additional, Birk, Paul, additional, Borisova, Gergana Dimitrova, additional, da Costa Castanheira, Carina, additional, Rupprecht, Patrick, additional, Mi, Yonghao, additional, Gaumnitz, Thomas, additional, Loh, Zhi-Heng, additional, Roling, Sebastian, additional, Butz, Marco, additional, Zacharias, Helmut, additional, Düsterer, Stefan, additional, Treusch, Rolf, additional, Ott, Christian, additional, and Pfeifer, Thomas, additional

Published
2021
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14. Chirp Characterization of High-Frequency Free-Electron-Laser Pulses using Transient Absorption Spectroscopy

Author

Ding, Thomas, primary, Rebholz, Marc, additional, Aufleger, Lennart, additional, Hartmann, Maximilian, additional, Stooß, Veit, additional, Magunia, Alexander, additional, Birk, Paul, additional, Borisova, Gergana Dimitrova, additional, Wachs, David, additional, Castanheira, Carina da Costa, additional, Rupprecht, Patrick, additional, Mi, Yonghao, additional, Attar, Andrew R., additional, Gaumnitz, Thomas, additional, Loh, Zhi-Heng, additional, Roling, Sebastian, additional, Butz, Marco, additional, Zacharias, Helmut, additional, Düsterer, Stefan, additional, Treusch, Rolf, additional, Cavaletto, Stefano M., additional, Ott, Christian, additional, and Pfeifer, Thomas, additional

Published
2020
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15. Multi-particle momentum correlations extracted using covariance methods on multiple-ionization of diiodomethane molecules by soft-X-ray free-electron laser pulses

Author

You, Daehyun, primary, Fukuzawa, Hironobu, additional, Luo, Yu, additional, Saito, Shu, additional, Berholts, Marta, additional, Gaumnitz, Thomas, additional, Huttula, Marko, additional, Johnsson, Per, additional, Kishimoto, Naoki, additional, Myllynen, Hanna, additional, Nemer, Ahmad, additional, Niozu, Akinobu, additional, Patanen, Minna, additional, Pelimanni, Eetu, additional, Takanashi, Tsukasa, additional, Wada, Shin-ichi, additional, Yokono, Naomichi, additional, Owada, Shigeki, additional, Tono, Kensuke, additional, Yabashi, Makina, additional, Nagaya, Kiyonobu, additional, Kukk, Edwin, additional, and Ueda, Kiyoshi, additional

Published
2020
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16. Minimizing attosecond CEP jitter by carrier envelope phase tuning

Author

Prandolini, Mark J., Gaumnitz, Thomas, Kothe, Alexander, Henkel, Jost, Schneider, Joachim, Hengster, Julia, Drescher, Markus, Lein, Manfred, Uphues, Thorsten, Cerullo, G., Ogilvie, J., Kärtner, F., Khalil, M., and Li, R.

Subjects
ddc:530, Dewey Decimal Classification::500 | Naturwissenschaften::530 | Physik, Konferenzschrift
Abstract

Minimizing the CEP jitter of isolated attosecond pulses (IAP) will be important for future applications. This jitter is experimentally and theoretically investigated and can be minimized when the driving pulse is near its Fourier limit but with slightly negative chirp. Thus, understanding and characterization of the CEP jitter of IAPs is a first step towards exact control of the electric field of IAP pulses.

Published
2019
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17. Minimizing attosecond CEP jitter by carrier envelope phase tuning

Author

Cerullo, G., Ogilvie, J., Kärtner, F., Khalil, M., Li, R., Prandolini, Mark J., Gaumnitz, Thomas, Kothe, Alexander, Henkel, Jost, Schneider, Joachim, Hengster, Julia, Drescher, Markus, Lein, Manfred, Uphues, Thorsten, Cerullo, G., Ogilvie, J., Kärtner, F., Khalil, M., Li, R., Prandolini, Mark J., Gaumnitz, Thomas, Kothe, Alexander, Henkel, Jost, Schneider, Joachim, Hengster, Julia, Drescher, Markus, Lein, Manfred, and Uphues, Thorsten

Abstract

Minimizing the CEP jitter of isolated attosecond pulses (IAP) will be important for future applications. This jitter is experimentally and theoretically investigated and can be minimized when the driving pulse is near its Fourier limit but with slightly negative chirp. Thus, understanding and characterization of the CEP jitter of IAPs is a first step towards exact control of the electric field of IAP pulses.

Published
2019

19. Strong-Field Extreme-Ultraviolet Dressing of Atomic Double Excitation

Author

Ott, Christian, primary, Aufleger, Lennart, additional, Ding, Thomas, additional, Rebholz, Marc, additional, Magunia, Alexander, additional, Hartmann, Maximilian, additional, Stooß, Veit, additional, Wachs, David, additional, Birk, Paul, additional, Borisova, Gergana D., additional, Meyer, Kristina, additional, Rupprecht, Patrick, additional, da Costa Castanheira, Carina, additional, Moshammer, Robert, additional, Attar, Andrew R., additional, Gaumnitz, Thomas, additional, Loh, Zhi-Heng, additional, Düsterer, Stefan, additional, Treusch, Rolf, additional, Ullrich, Joachim, additional, Jiang, Yuhai, additional, Meyer, Michael, additional, Lambropoulos, Peter, additional, and Pfeifer, Thomas, additional

Published
2019
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20. Nonlinear Coherence Effects in Transient-Absorption Ion Spectroscopy with Stochastic Extreme-Ultraviolet Free-Electron Laser Pulses

Author

Ding, Thomas, primary, Rebholz, Marc, additional, Aufleger, Lennart, additional, Hartmann, Maximilian, additional, Meyer, Kristina, additional, Stooß, Veit, additional, Magunia, Alexander, additional, Wachs, David, additional, Birk, Paul, additional, Mi, Yonghao, additional, Borisova, Gergana Dimitrova, additional, Castanheira, Carina da Costa, additional, Rupprecht, Patrick, additional, Loh, Zhi-Heng, additional, Attar, Andrew R., additional, Gaumnitz, Thomas, additional, Roling, Sebastian, additional, Butz, Marco, additional, Zacharias, Helmut, additional, Düsterer, Stefan, additional, Treusch, Rolf, additional, Cavaletto, Stefano M., additional, Ott, Christian, additional, and Pfeifer, Thomas, additional

Published
2019
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21. Photoionization delays in xenon using single-shot referencing in the collinear back-focusing geometry

Author

Jain, Arohi, Gaumnitz, Thomas, Bray, Alexander, Kheifets, Anatoli, Worner, Hans Jakob, Jain, Arohi, Gaumnitz, Thomas, Bray, Alexander, Kheifets, Anatoli, and Worner, Hans Jakob

Abstract

Attosecond photoemission delays for all the valence (5p3/2, 5p1/2, 5s, 4d5/2, 4d3/2) subshells of xenon have been accessed using the interferometric RABBITT technique. The 4d subshell delays in Xe have been accessed for the first time, to the best of our knowledge, due to the high photon energy used. A novel technique of single-shot referencing in the collinear back-focusing geometry has been introduced. This enables us to distinguish the signal from principal photoelectron peaks due to ionization by extreme ultraviolet radiation only and infrared-induced sideband contributions, especially in the regions of spectral overlap.

Published
2018

22. Using a passively stable attosecond beamline for relative phjavascript:void(0);otoemission time delays at high XUV photon energies

Author

Jain, Arohi, Gaumnitz, Thomas, Kheifets, Anatoli, Worner, Hans Jakob, Jain, Arohi, Gaumnitz, Thomas, Kheifets, Anatoli, and Worner, Hans Jakob

Abstract

We present and demonstrate an experimental scheme that enables overlap-free reconstruction of attosecond beating by the interference of two-photon transition (RABBITT) measurements at high extreme-ultraviolet (XUV) photon energies. A compact passively-stabilized attosecond beamline employing a multilayer (ML) mirror allows us to obtain XUV pulses consisting of only two odd high-harmonic orders from an attosecond pulse train (APT). We compare our new technique to existing schemes that are used to perform RABBITT measurements and discuss how our scheme resolves the limitations imposed by spectral complexity of the harmonic comb at high photon energies. We further demonstrate first applications of our scheme for rare gases and gas mixtures, and show that this scheme can be extended to gas-molecule mixtures.

Published
2018

30. Complete reconstruction of ultra-broadband isolated attosecond pulses including partial averaging over the angular distribution.

Author

Gaumnitz T, Jain A, and Wörner HJ

Abstract

Attosecond streaking is a powerful tool to investigate ultrafast electron dynamics on the attosecond time scale. To obtain the highest temporal resolution in a pump-probe experiment, soft-X-ray (SXR) and infrared (IR) pulses have to be carefully characterized. Here, we present a detailed description of our recent generalization of the Volkov-transform generalized projection algorithm (VTGPA) and its application to multiple overlapping photoelectron bands. This method allows for the complete temporal reconstruction of both IR and SXR pulses under the inclusion of accurate complex photoionization matrix elements (PMEs). In this article, we compare the performance of our new method with traditional algorithms. We particularly focus on the important role played by the photoelectron angular distribution (PAD) which needs to be taken into account for the highest fidelity of attosecond pulse reconstruction. For this purpose, we investigate numerically the influence of the finite collection angle of the electron spectrometer on the retrieval and the obtained pulse parameters. We further theoretically demonstrate the reliability of the reconstruction for pulse durations even shorter than the atomic unit of time.

Published
2018
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