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Your search keyword '"Glownia, J. M."' showing total 49 results
Start Over Author "Glownia, J. M." Publication Type Academic Journals
49 results on '"Glownia, J. M."'

3. The ultrafast Einstein–de Haas effect

Author

Dornes, C., Acremann, Y., Savoini, M., Kubli, M., Neugebauer, M. J., Abreu, E., Huber, L., Lantz, G., Vaz, C. A. F., Lemke, H., Bothschafter, E. M., Porer, M., Esposito, V., Rettig, L., Buzzi, M., Alberca, A., Windsor, Y. W., Beaud, P., Staub, U., Zhu, Diling, Song, Sanghoon, Glownia, J. M., and Johnson, S. L.

Published
2019
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4. Femtosecond electron-phonon lock-in by photoemission and x-ray free-electron laser

Author

Gerber, S., Yang, S.-L., Zhu, D., Soifer, H., Sobota, J. A., Rebec, S., Lee, J. J., Jia, T., Moritz, B., Jia, C., Gauthier, A., Li, Y., Leuenberger, D., Zhang, Y., Chaix, L., Li, W., Jang, H., Lee, J.-S., Yi, M., Dakovski, G. L., Song, S., Glownia, J. M., Nelson, S., Kim, K. W., Chuang, Y.-D., Hussain, Z., Moore, R. G., Devereaux, T. P., Lee, W.-S., Kirchmann, P. S., and Shen, Z.-X.

Published
2017

7. Out-of-equilibrium dynamics driven by photoinduced charge transfer in CsCoFe Prussian blue analogue nanocrystals.

Author

Zerdane, S., Hervé, M., Mazerat, S., Catala, L., Alonso-Mori, R., Glownia, J. M., Song, S., Levantino, M., Mallah, T., Cammarata, M., and Collet, E.

Abstract

In this paper we study the out-of-equilibrium dynamics associated with photoinduced charge-transfer (CT) in cyanide-bridged Co–Fe Prussian blue analogue nanocrystals. In these coordination networks, the structural trapping of the photoinduced CT polaron involves local electronic and structural reorganizations. Femtosecond X-ray and optical absorption spectroscopies show that the local structural trapping process occurs on similar timescale for particles with 11 nm and 70 nm sizes. The local photoinduced spin transition, elongating the Co–N bonds and driving the CoIIIFeII → CoIIFeIII CT, activates coherent lattice torsion modes. The elastic deformation waves, launched by these bond elongations, drive macroscopic volume expansion and breathing of the particles. The timescale of this macroscopic deformation depends strongly on the size of the particle, which is more evidence of the multiscale nature of photoinduced phenomena in molecular materials. [ABSTRACT FROM AUTHOR]

Published
2022
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8. Femtosecond electronic response of atoms to ultra-intense X-rays

Author

Young, L., Kanter, E. P., Krässig, B., Li, Y., March, A. M., Pratt, S. T., Santra, R., Southworth, S. H., Rohringer, N., DiMauro, L. F., Doumy, G., Roedig, C. A., Berrah, N., Fang, L., Hoener, M., Bucksbaum, P. H., Cryan, J. P., Ghimire, S., Glownia, J. M., Reis, D. A., Bozek, J. D., Bostedt, C., and Messerschmidt, M.

Published
2010
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9. Observation of photo-induced plasmon–phonon coupling in PbTe via ultrafast x-ray scattering.

Author

Jiang, M. P., Fahy, S., Hauber, A., Murray, É. D., Savić, I., Bray, C., Clark, J. N., Henighan, T., Kozina, M., Lindenberg, A. M., Zalden, P., Chollet, M., Glownia, J. M., Hoffmann, M. C., Sato, T., Zhu, D., Delaire, O., May, A. F., Sales, B. C., and Merlin, R.

Subjects
DEFORMATION potential, COHERENCE (Optics), LIGHT sources, COHERENT scattering, ACOUSTIC couplers, X-ray scattering
Abstract

We report the observation of photo-induced plasmon–phonon coupled modes in the group IV–VI semiconductor PbTe using ultrafast x-ray diffuse scattering at the Linac Coherent Light Source. We measure the near-zone-center excited-state dispersion of the heavily screened longitudinal optical (LO) phonon branch as extracted from differential changes in x-ray diffuse scattering intensity following above bandgap photoexcitation. We suggest that upon photoexcitation, the LO phonon-plasmon coupled (LOPC) modes themselves become coupled to longitudinal acoustic modes that drive electron band shifts via acoustic deformation potentials and possibly to low-energy single-particle excitations within the plasma and that these couplings give rise to displacement-correlations that oscillate in time with a period given effectively by the heavily screened LOPC frequency. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Hard X-ray induced fast secondary electron cascading processes in solids.

Author

Mecseki, K., Höppner, H., Büscher, M., Tkachenko, V., Medvedev, N., Bekx, J. J., Lipp, V., Piekarz, P., Windeler, M., Tisch, J. W. G., Walke, D. J., Nakatsutsumi, M., Prandolini, M. J., Glownia, J. M., Sato, T., Sikorski, M., Chollet, M., Teubner, U., Robinson, J., and Toleikis, S.

Subjects
RADIOSCOPIC diagnosis, IONIZATION energy, FORCE & energy, FREE electron lasers, LIGHT sources
Abstract

Recent studies confirmed that the materials used in the extreme UV and soft X-ray regime for precise characterization of intense free-electron laser pulses (e.g., Si3N4) do not work efficiently in the hard X-ray regime, which is due to the fact that the impact of a hard X-ray photon is followed by a series of electron cascading processes. Following theoretical indication, we show that this limitation can be circumvented and the cascading time can be significantly reduced if the X-ray photon energy is double the ionization energy. We investigate an alternative material for pulse diagnostics, SnO2, using the Linac Coherent Light Source at photon energies of 5 keV and 9 keV. We prove the validity of the concept and show that it has a large potential for practical applications. By applying the proposed criteria, the temporal accuracy of the non-invasive pulse diagnostic tools can be improved in current and emerging hard X-ray facilities. [ABSTRACT FROM AUTHOR]

Published
2018
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11. Heterodyne x-ray diffuse scattering from coherent phonons.

Author

Kozina, M., Trigo, M., Chollet, M., Clark, J. N., Glownia, J. M., Gossard, A. C., Henighan, T., Jiang, M. P., Lu, H., Majumdar, A., Zhu, D., and Reis, D. A.

Subjects
X-ray scattering, PHONONS, GALLIUM arsenide
Abstract

Here, we report Fourier-transform inelastic x-ray scattering measurements of photoexcited GaAs with embedded ErAs nanoparticles. We observe temporal oscillations in the x-ray scattering intensity, which we attribute to inelastic scattering from coherent acoustic phonons. Unlike in thermal equilibrium, where inelastic x-ray scattering is proportional to the phonon occupation, we show that the scattering is proportional to the phonon amplitude for coherent states. The wavevectors of the observed phonons extend beyond the excitation wavevector. The nanoparticles break the discrete translational symmetry of the lattice, enabling the generation of large wavevector coherent phonons. Elastic scattering of x-ray photons from the nanoparticles provides a reference for heterodyne mixing, yielding signals proportional to the phonon amplitude. [ABSTRACT FROM AUTHOR]

Published
2017
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12. Ultrafast X-ray diffraction probe of terahertz field-driven soft mode dynamics in SrTiO3.

Author

Kozina, M., van Driel, T., Chollet, M., Sato, T., Glownia, J. M., Wandel, S., Radovic, M., Staub, U., and Hoffmann, M. C.

Subjects
X-ray diffraction, STRONTIUM titanate, CRYSTAL lattices
Abstract

We use ultrafast X-ray pulses to characterize the lattice response of SrTiO3 when driven by strong terahertz fields. We observe transient changes in the diffraction intensity with a delayed onset with respect to the driving field. Fourier analysis reveals two frequency components corresponding to the two lowest energy zone-center optical modes in SrTiO3. The lower frequency mode exhibits clear softening as the temperature is decreased while the higher frequency mode shows slight temperature dependence. [ABSTRACT FROM AUTHOR]

Published
2017
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13. Circular dichroism measurements at an x-ray free-electron laser with polarization control.

Author

Hartmann, G., Lindahl, A. O., Knie, A., Hartmann, N., Lutman, A. A., MacArthur, J. P., Shevchuk, I., Buck, J., Galler, A., Glownia, J. M., Helml, W., Huang, Z., Kabachnik, N. M., Kazansky, A. K., Liu, J., Marinelli, A., Mazza, T., Nuhn, H.-D., Walter, P., and Viefhaus, J.

Subjects
CIRCULAR dichroism, FREE electron lasers, IONIZATION of gases, PHOTOELECTRONS, ULTRAVIOLET lasers, ELECTRON spectroscopy, X-ray lasers, MEASURING instruments
Abstract

A non-destructive diagnostic method for the characterization of circularly polarized, ultraintense, short wavelength free-electron laser (FEL) light is presented. The recently installed Delta undulator at the LCLS (Linac Coherent Light Source) at SLAC National Accelerator Laboratory (USA) was used as showcase for this diagnostic scheme. By applying a combined two-color, multi-photon experiment with polarization control, the degree of circular polarization of the Delta undulator has been determined. Towards this goal, an oriented electronic state in the continuum was created by non-resonant ionization of the O2 1s core shell with circularly polarized FEL pulses at hν ≃ 700 eV. An also circularly polarized, highly intense UV laser pulse with hν ≃ 3.1 eV was temporally and spatially overlapped, causing the photoelectrons to redistribute into so-called sidebands that are energetically separated by the photon energy of the UV laser. By determining the circular dichroism of these redistributed electrons using angle resolving electron spectroscopy and modeling the results with the strong-field approximation, this scheme allows to unambiguously determine the absolute degree of circular polarization of any pulsed, ultraintense XUV or X-ray laser source. [ABSTRACT FROM AUTHOR]

Published
2016
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14. Activation of coherent lattice phonon following ultrafast molecular spin-state photo-switching: A molecule-to-lattice energy transfer.

Author

Marino, A., Cammarata, M., Collet, E., Matar, S. F., Létard, J. -F., Chastanet, G., Chollet, M., Glownia, J. M., and Lemke, H. T.

Subjects
PHOTONS, LATTICE dynamics, ENERGY transfer
Abstract

We combine ultrafast optical spectroscopy with femtosecond X-ray absorption to study the photo-switching dynamics of the [Fe(PM-AzA)2(NCS)2] spin-crossover molecular solid. The light-induced excited spin-state trapping process switches the molecules from low spin to high spin (HS) states on the sub-picosecond timescale. The change of the electronic state (<50 fs) induces a structural reorganization of the molecule within 160 fs. This transformation is accompanied by coherent molecular vibrations in the HS potential and especially a rapidly damped Fe-ligand breathing mode. The time-resolved studies evidence a delayed activation of coherent optical phonons of the lattice surrounding the photoexcited molecules. [ABSTRACT FROM AUTHOR]

Published
2016
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15. Demonstration of simultaneous experiments using thin crystal multiplexing at the Linac Coherent Light Source.

Author

Feng, Y., Alonso-Mori, R., Barends, T. R. M., Blank, V. D., Botha, S., Chollet, M., Damiani, D. S., Doak, R. B., Glownia, J. M., Koglin, J. M., Lemke, H. T., Messerschmidt, M., Nass, K., Nelson, S., Schlichting, I., Shoeman, R. L., Shvyd'ko, Yu. V., Sikorski, M., Song, S., and Stoupin, S.

Subjects
COHERENCE (Optics), LIGHT sources, X-rays, MONOCHROMATORS, BRAGG gratings, CRYSTALLOGRAPHY, PROTEINS, PHOTOEXCITATION
Abstract

Multiplexing of the Linac Coherent Light Source beam was demonstrated for hard X-rays by spectral division using a near-perfect diamond thin-crystal monochromator operating in the Bragg geometry. The wavefront and coherence properties of both the reflected and transmitted beams were well preserved, thus allowing simultaneous measurements at two separate instruments. In this report, the structure determination of a prototypical protein was performed using serial femtosecond crystallography simultaneously with a femtosecond time-resolved XANES studies of photoexcited spin transition dynamics in an iron spin-crossover system. The results of both experiments using the multiplexed beams are similar to those obtained separately, using a dedicated beam, with no significant differences in quality. [ABSTRACT FROM AUTHOR]

Published
2015
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16. A time-dependent order parameter for ultrafast photoinduced phase transitions.

Author

Beaud, P., Caviezel, A., Mariager, S. O., Rettig, L., Ingold, G., Dornes, C., Huang, S-W., Johnson, J. A., Radovic, M., Huber, T., Kubacka, T., Ferrer, A., Lemke, H. T., Chollet, M., Zhu, D., Glownia, J. M., Sikorski, M., Robert, A., Wadati, H., and Nakamura, M.

Subjects
PHASE transitions, PHOTOINDUCED electron transfer, DEGREES of freedom, X-ray diffraction, ELECTRONIC excitation, CRYSTAL symmetry
Abstract

Strongly correlated electron systems often exhibit very strong interactions between structural and electronic degrees of freedom that lead to complex and interesting phase diagrams. For technological applications of these materials it is important to learn how to drive transitions from one phase to another. A key question here is the ultimate speed of such phase transitions, and to understand how a phase transition evolves in the time domain. Here we apply time-resolved X-ray diffraction to directly measure the changes in long-range order during ultrafast melting of the charge and orbitally ordered phase in a perovskite manganite. We find that although the actual change in crystal symmetry associated with this transition occurs over different timescales characteristic of the many electronic and vibrational coordinates of the system, the dynamics of the phase transformation can be well described using a single time-dependent 'order parameter' that depends exclusively on the electronic excitation. [ABSTRACT FROM AUTHOR]

Published
2014
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17. Sub-femtosecond precision measurement of relative X-ray arrival time for free-electron lasers.

Author

Hartmann, N., Helml, W., Galler, A., Bionta, M. R., Grünert, J., L. Molodtsov, S., Ferguson, K. R., Schorb, S., Swiggers, M. L., Carron, S., Bostedt, C., Castagna, J.-C., Bozek, J., Glownia, J. M., Kane, D. J., Fry, A. R., White, W. E., Hauri, C. P., Feurer, T., and Coffee, R. N.

Subjects
FEMTOSECOND pulses, PRECISION (Information retrieval), FREE electron lasers, OPTICAL delay lines, ATTOSECOND pulses
Abstract

Today's brightest coherent X-ray sources, X-ray free-electron lasers, produce ultrafast X-ray pulses for which full-width at half-maximum durations as short as 3 fs have been measured. There has been a marked increase in the popularity of such short pulses now that optical timing techniques have begun to report an X-ray/optical delay below ∼10 fs r.m.s. errors. As a result, sub-10 fs optical pulses have been implemented at the Linac Coherent Light Source (LCLS) X-ray beamlines, thus warranting a push to reduce the error in X-ray/optical delay measurements to the 1 fs level. Here, we report a unique two-dimensional spectrogram measurement of the relative X-ray/optical delay. This easily scalable relative delay measurement already surpasses previous techniques by an order of magnitude with its sub-1 fs temporal resolution and opens up the prospect of time-resolved X-ray measurements to the attosecond community. [ABSTRACT FROM AUTHOR]

Published
2014
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18. All-diamond optical assemblies for a beam-multiplexing X-ray monochromator at the Linac Coherent Light Source.

Author

Stoupin, S., Terentyev, S. A., Blank, V. D., Shvyd’ko, Yu. V., Goetze, K., Assoufid, L., Polyakov, S. N., Kuznetsov, M. S., Kornilov, N. V., Katsoudas, J., Alonso-Mori, R., Chollet, M., Y. Feng, Glownia, J. M., Lemke, H., Robert, A., Sikorski, M., Song, S., and D. Zhu

Subjects
X-ray monochromators, LINEAR accelerators, COHERENCE (Optics), DIAMOND crystals, X-ray topography
Abstract

A double-crystal diamond (111) monochromator recently implemented at the Linac Coherent Light Source (LCLS) enables splitting of the primary X-ray beam into a pink (transmitted) and a monochromatic (reflected) branch. The first monochromator crystal, with a thickness of ~100 mm, provides sufficient X-ray transmittance to enable simultaneous operation of two beamlines. This article reports the design, fabrication and X-ray characterization of the first and second (300 mm-thick) crystals utilized in the monochromator and the optical assemblies holding these crystals. Each crystal plate has a region of about 5 × 2 mm with low defect concentration, sufficient for use in X-ray optics at the LCLS. The optical assemblies holding the crystals were designed to provide mounting on a rigid substrate and to minimize mounting-induced crystal strain. The induced strain was evaluated using double-crystal X-ray topography and was found to be small over the 5 × 2 mm working regions of the crystals. [ABSTRACT FROM AUTHOR]

Published
2014
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19. Spectral encoding method for measuring the relative arrival time between x-ray/optical pulses.

Author

Bionta, M. R., Hartmann, N., Weaver, M., French, D., Nicholson, D. J., Cryan, J. P., Glownia, J. M., Baker, K., Bostedt, C., Chollet, M., Ding, Y., Fritz, M., Fry, A. R., Kane, D. J., Krzywinski, J., Lemke, H. T., Messerschmidt, M., Schorb, S., Zhu, D., and White, W. E.

Subjects
FEMTOSECOND lasers research, LIGHT sources, OPTICAL pumping, ACCURACY, LASERS
Abstract

The advent of few femtosecond x-ray light sources brings promise of x-ray/optical pump-probe experiments that can measure chemical and structural changes in the 10-100 fs time regime. Widely distributed timing systems used at x-ray Free-Electron Laser facilities are typically limited to above 50 fs fwhm jitter in active x-ray/optical synchronization. The approach of single-shot timing measurements is used to sort results in the event processing stage. This has seen wide use to accommodate the insufficient precision of active stabilization schemes. In this article, we review the current technique for "measure-and-sort" at the Linac Coherent Light Source at the SLAC National Accelerator Laboratory. The relative arrival time between an x-ray pulse and an optical pulse is measured near the experimental interaction region as a spectrally encoded cross-correlation signal. The cross-correlation provides a time-stamp for filter-and-sort algorithms used for real-time sorting. Sub-10 fs rms resolution is common in this technique, placing timing precision at the same scale as the duration of the shortest achievable x-ray pulses. [ABSTRACT FROM AUTHOR]

Published
2014
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20. Performance of a beam-multiplexing diamond crystal monochromator at the Linac Coherent Light Source.

Author

Diling Zhu, Yiping Feng, Stoupin, Stanislav, Terentyev, Sergey A., Lemke, Henrik T., Fritz, David M., Chollet, Matthieu, Glownia, J. M., Alonso-Mori, Roberto, Sikorski, Marcin, Sanghoon Song, van Driel, Tim B., Williams, Garth J., Messerschmidt, Marc, Boutet, Sébastien, Blank, Vladimir D., Shvyd'ko, Yuri V., and Robert, Aymeric

Subjects
MONOCHROMATORS, FREE electron lasers, HARD X-rays, DIAMOND crystals, WAVELENGTHS
Abstract

A double-crystal diamond monochromator was recently implemented at the Linac Coherent Light Source. It enables splitting pulses generated by the free electron laser in the hard x-ray regime and thus allows the simultaneous operations of two instruments. Both monochromator crystals are High-Pressure High-Temperature grown type-IIa diamond crystal plates with the (111) orientation. The first crystal has a thickness of 100 μm to allow high reflectivity within the Bragg bandwidth and good transmission for the other wavelengths for downstream use. The second crystal is about 300 μm thick and makes the exit beam of the monochromator parallel to the incoming beam with an offset of 600 mm. Here we present details on the monochromator design and its performance. [ABSTRACT FROM AUTHOR]

Published
2014
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22. X-ray-optical cross-correlator for gas-phase experiments at the Linac Coherent Light Source free-electron laser.

Author

Schorb, S., Gorkhover, T., Cryan, J. P., Glownia, J. M., Bionta, M. R., Coffee, R. N., Erk, B., Boll, R., Schmidt, C., Rolles, D., Rudenko, A., Rouzee, A., Swiggers, M., Carron, S., Castagna, J.-C., Bozek, J. D., Messerschmidt, M., Schlotter, W. F., and Bostedt, C.

Subjects
X-ray optics, FREE electron lasers, RADIO pulse time modulation, STANDARD deviations, OPTICAL correlators
Abstract

X-ray-optical pump-probe experiments at the Linac Coherent Light Source (LCLS) have so far been limited to a time resolution of 280 fs fwhm due to timing jitter between the accelerator-based free-electron laser (FEL) and optical lasers. We have implemented a single-shot cross-correlator for femtosecond x-ray and infrared pulses. A reference experiment relying only on the pulse arrival time information from the cross-correlator shows a time resolution better than 50 fs fwhm (22 fs rms) and also yields a direct measurement of the maximal x-ray pulse length. The improved time resolution enables ultrafast pump-probe experiments with x-ray pulses from LCLS and other FEL sources. [ABSTRACT FROM AUTHOR]

Published
2012
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23. X-ray pulse preserving single-shot optical cross-correlation method for improved experimental temporal resolution.

Author

Beye, M., Krupin, O., Hays, G., Reid, A. H., Rupp, D., Jong, S. de, Lee, S., Lee, W.-S., Chuang, Y.-D., Coffee, R., Cryan, J. P., Glownia, J. M., Föhlisch, A., Holmes, M. R., Fry, A. R., White, W. E., Bostedt, C., Scherz, A. O., Durr, H. A., and Schlotter, W. F.

Subjects
X-ray polarization, FREE electron lasers, MONOCHROMATORS, ELECTRONIC pulse techniques, REFLECTANCE
Abstract

We measured the relative arrival time between an optical pulse and a soft x-ray pulse from a free-electron laser. This femtosecond cross-correlation measurement was achieved by observing the change in optical reflectivity induced through the absorption of a fraction of the x-ray pulse. The main x-ray pulse energy remained available for an independent pump-probe experiment where the sample may be opaque to soft x-rays. The method was employed to correct the two-pulse delay data from a canonical pump-probe experiment and demonstrate 130 ± 20 fs (FWHM) temporal resolution. We further analyze possible timing jitter sources and point to future improvements. [ABSTRACT FROM AUTHOR]

Published
2012
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24. Molecular frame Auger electron energy spectrum from N2.

Author

Cryan, J. P., Glownia, J. M., Andreasson, J., Belkacem, A., Berrah, N., Blaga, C. I., Bostedt, C., Bozek, J., Cherepkov, N. A., DiMauro, L. F., Fang, L., Gessner, O., Gühr, M., Hajdu, J., Hertlein, M. P., Hoener, M., Kornilov, O., Marangos, J. P., March, A. M., and McFarland, B. K.

Subjects
*AUGER electron spectroscopy, *NITROGEN, *PHOTOIONIZATION, *PHOTONS, *ELECTRON emission, *ANGULAR distribution (Nuclear physics)
Abstract

Here we present the first angle-resolved, non-resonant (normal) Auger spectra for impulsively aligned nitrogen molecules. We have measured the angular pattern of Auger electron emission following K-shell photoionization by 1.1 keV photons from the Linac Coherent Light Source (LCLS). Using strong-field-induced molecular alignment to make molecular frame measurements is equally effective for both repulsive and quasi-bound final states. The capability to resolve Auger emission angular distributions in the molecular frame of reference provides a new tool for spectral assignments in congested Auger electron spectra that takes advantage of the symmetries of the final diction states. Based on our experimental results and theoretical predictions, we propose the assignment of the spectral features in the Auger electron spectrum. [ABSTRACT FROM AUTHOR]

Published
2012
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25. Molecular frame Auger electron energy spectrum from N2.

Author

Cryan, J. P., Glownia, J. M., Andreasson, J., Belkacem, A., Berrah, N., Blaga, C. I., Bostedt, C., Bozek, J., Cherepkov, N. A., DiMauro, L. F., Fang, L., Gessner, O., Gühr, M., Hajdu, J., Hertlein, M. P., Hoener, M., Kornilov, O., Marangos, J. P., March, A. M., and McFarland, B. K.

Subjects
AUGER electron spectroscopy, NITROGEN, PHOTOIONIZATION, PHOTONS, ELECTRON emission, ANGULAR distribution (Nuclear physics)
Abstract

Here we present the first angle-resolved, non-resonant (normal) Auger spectra for impulsively aligned nitrogen molecules. We have measured the angular pattern of Auger electron emission following K-shell photoionization by 1.1 keV photons from the Linac Coherent Light Source (LCLS). Using strong-field-induced molecular alignment to make molecular frame measurements is equally effective for both repulsive and quasi-bound final states. The capability to resolve Auger emission angular distributions in the molecular frame of reference provides a new tool for spectral assignments in congested Auger electron spectra that takes advantage of the symmetries of the final diction states. Based on our experimental results and theoretical predictions, we propose the assignment of the spectral features in the Auger electron spectrum. [ABSTRACT FROM AUTHOR]

Published
2012
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26. Nonlinear lattice dynamics as a basis for enhanced superconductivity in YBa2Cu3O6.5 .

Author

Mankowsky, R., Subedi, A., Först, M., Mariager, S. O., Chollet, M., Lemke, H. T., Robinson, J. S., Glownia, J. M., Minitti, M. P., Frano, A., Loew, T., Keimer, B., Fechner, M., Spaldin, N. A., Georges, A., and Cavalleri, A.

Subjects
LATTICE dynamics, SUPERCONDUCTIVITY, CRYSTAL structure, X-ray diffraction, DENSITY functional theory, ELECTRONIC structure
Abstract

Terahertz-frequency optical pulses can resonantly drive selected vibrational modes in solids and deform their crystal structures. In complex oxides, this method has been used to melt electronic order, drive insulator-to-metal transitions and induce superconductivity. Strikingly, coherent interlayer transport strongly reminiscent of superconductivity can be transiently induced up to room temperature (300 kelvin) in YBa2Cu3O6+x (refs 9, 10). Here we report the crystal structure of this exotic non-equilibrium state, determined by femtosecond X-ray diffraction and ab initio density functional theory calculations. We find that nonlinear lattice excitation in normal-state YBa2Cu3O6+x at above the transition temperature of 52 kelvin causes a simultaneous increase and decrease in the Cu-O2 intra-bilayer and, respectively, inter-bilayer distances, accompanied by anisotropic changes in the in-plane O-Cu-O bond buckling. Density functional theory calculations indicate that these motions cause drastic changes in the electronic structure. Among these, the enhancement in the character of the in-plane electronic structure is likely to favour superconductivity. [ABSTRACT FROM AUTHOR]

Published
2014
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27. Self-Referenced Coherent Diffraction X-Ray Movie of Ångstrom- and Femtosecond-Scale Atomic Motion.

Author

Glownia, J. M., Natan, A., Cryan, J. P., Hartsock, R., Kozina, M., Minitti, M. P., Nelson, S., Robinson, J., Sato, T., van Driel, T., Welch, G., Weninger, C., Zhu, D., and Bucksbaum, P. H.

Subjects
*X-ray diffraction, *HETERODYNE detection, *X-ray interference
Abstract

Time-resolved femtosecond x-ray diffraction patterns from laser-excited molecular iodine are used to create a movie of intramolecular motion with a temporal and spatial resolution of 30 fs and 0.3 Å. This high fidelity is due to interference between the nonstationary excitation and the stationary initial charge distribution. The initial state is used as the local oscillator for heterodyne amplification of the excited charge distribution to retrieve real-space movies of atomic motion on ångstrom and femtosecond scales. This x-ray interference has not been employed to image internal motion in molecules before. Coherent vibrational motion and dispersion, dissociation, and rotational dephasing are all clearly visible in the data, thereby demonstrating the stunning sensitivity of heterodyne methods. [ABSTRACT FROM AUTHOR]

Published
2016
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32. Imaging Molecular Motion: Femtosecond X-Ray Scattering of an Electrocyclic Chemical Reaction.

Author

Minitti, M. P., Budarz, J. M., Kirrander, A., Robinson, J. S., Ratner, D., Lane, T. J., Zhu, D., Glownia, J. M., Kozina, M., Lemke, H. T., Sikorski, M., Feng, Y., Nelson, S., Saita, K., Stankus, B., Northey, T., Hastings, J. B., and Weber, P. M.

Subjects
*FEMTOSECOND pulses, *X-ray scattering, *ELECTROCYCLIC reactions (Chemistry), *SPECTRUM analysis, *CHEMICAL reactions
Abstract

Structural rearrangements within single molecules occur on ultrafast time scales. Many aspects of molecular dynamics, such as the energy flow through excited states, have been studied using spectroscopic techniques, yet the goal to watch molecules evolve their geometrical structure in real time remains challenging. By mapping nuclear motions using femtosecond x-ray pulses, we have created real-space representations of the evolving dynamics during a well-known chemical reaction and show a series of time-sorted structural snapshots produced by ultrafast time-resolved hard x-ray scattering. A computational analysis optimally matches the series of scattering patterns produced by the x rays to a multitude of potential reaction paths. In so doing, we have made a critical step toward the goal of viewing chemical reactions on femtosecond time scales, opening a new direction in studies of ultrafast chemical reactions in the gas phase. [ABSTRACT FROM AUTHOR]

Published
2015
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33. Nonlinear lattice dynamics as a basis for enhanced superconductivity in YBa2Cu3O6.5 .

Author

Mankowsky, R., Subedi, A., Först, M., Mariager, S. O., Chollet, M., Lemke, H. T., Robinson, J. S., Glownia, J. M., Minitti, M. P., Frano, A., Loew, T., Keimer, B., Fechner, M., Spaldin, N. A., Georges, A., and Cavalleri, A.

Subjects
*LATTICE dynamics, *SUPERCONDUCTIVITY, *CRYSTAL structure, *X-ray diffraction, *DENSITY functional theory, *ELECTRONIC structure
Abstract

Terahertz-frequency optical pulses can resonantly drive selected vibrational modes in solids and deform their crystal structures. In complex oxides, this method has been used to melt electronic order, drive insulator-to-metal transitions and induce superconductivity. Strikingly, coherent interlayer transport strongly reminiscent of superconductivity can be transiently induced up to room temperature (300 kelvin) in YBa2Cu3O6+x (refs 9, 10). Here we report the crystal structure of this exotic non-equilibrium state, determined by femtosecond X-ray diffraction and ab initio density functional theory calculations. We find that nonlinear lattice excitation in normal-state YBa2Cu3O6+x at above the transition temperature of 52 kelvin causes a simultaneous increase and decrease in the Cu-O2 intra-bilayer and, respectively, inter-bilayer distances, accompanied by anisotropic changes in the in-plane O-Cu-O bond buckling. Density functional theory calculations indicate that these motions cause drastic changes in the electronic structure. Among these, the enhancement in the character of the in-plane electronic structure is likely to favour superconductivity. [ABSTRACT FROM AUTHOR]

Published
2014
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35. Nonlinear Electron-Phonon Coupling in Doped Manganites.

Author

Esposito, V., Fechner, M., Mankowsky, R., Lemke, H., Chollet, M., Glownia, J. M., Nakamura, M., Kawasaki, M., Tokura, Y., Staub, U., Beaud, P., and Först, M.

Subjects
*ELECTRON-phonon interactions, *MANGANITE
Abstract

We employ time-resolved resonant x-ray diffraction to study the melting of charge order and the associated insulator-to-metal transition in the doped manganite Pr0.5Ca0.5MnO3 after resonant excitation of a high-frequency infrared-active lattice mode. We find that the charge order reduces promptly and highly nonlinearly as function of excitation fluence. Density-functional theory calculations suggest that direct anharmonic coupling between the excited lattice mode and the electronic structure drives these dynamics, highlighting a new avenue of nonlinear phonon control. [ABSTRACT FROM AUTHOR]

Published
2017
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36. Multiple Supersonic Phase Fronts Launched at a Complex-Oxide Heterointerface.

Author

Först, M., Beyerlein, K. R., Mankowsky, R., Hu, W., Mattoni, G., Catalano, S., Gibert, M., Yefanov, O., Clark, J. N., Frano, A., Glownia, J. M., Chollet, M., Lemke, H., Moser, B., Collins, S. P., Dhesi, S. S., Caviglia, A. D., Triscone, J.-M., and Cavalleri, A.

Subjects
*PHASE transitions, *X-ray diffraction, *NEODYMIUM compounds
Abstract

Selective optical excitation of a substrate lattice can drive phase changes across heterointerfaces. This phenomenon is a nonequilibrium analogue of static strain control in heterostructures and may lead to new applications in optically controlled phase change devices. Here, we make use of time-resolved nonresonant and resonant x-ray diffraction to clarify the underlying physics and to separate different microscopic degrees of freedom in space and time. We measure the dynamics of the lattice and that of the charge disproportionation in NdNiO3, when an insulator-metal transition is driven by coherent lattice distortions in the LaAlO3 substrate. We find that charge redistribution propagates at supersonic speeds from the interface into the NdNiO3 film, followed by a sonic lattice wave. When combined with measurements of magnetic disordering and of the metal-insulator transition, these results establish a hierarchy of events for ultrafast control at complex-oxide heterointerfaces. [ABSTRACT FROM AUTHOR]

Published
2017
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37. Photoinduced Enhancement of the Charge Density Wave Amplitude.

Author

Singer, A., Patel, S. K. K., Kukreja, R., Uhlíř, V., Wingert, J., Festersen, S., Zhu, D., Glownia, J. M., Lemke, H. T., Nelson, S., Kozina, M., Rossnagel, K., Bauer, M., Murphy, B. M., Magnussen, O. M., Fullerton, E. E., and Shpyrko, O. G.

Subjects
*CHARGE density waves, *CONDENSED matter physics, *SYMMETRY breaking
Abstract

Symmetry breaking and the emergence of order is one of the most fascinating phenomena in condensed matter physics. It leads to a plethora of intriguing ground states found in antiferromagnets, Mott insulators, superconductors, and density-wave systems. Exploiting states of matter far from equilibrium can provide even more striking routes to symmetry-lowered, ordered states. Here, we demonstrate for the case of elemental chromium that moderate ultrafast photoexcitation can transiently enhance the charge-density-wave (CDW) amplitude by up to 30% above its equilibrium value, while strong excitations lead to an oscillating, large-amplitude CDW state that persists above the equilibrium transition temperature. Both effects result from dynamic electron-phonon interactions, providing an efficient mechanism to selectively transform a broad excitation of the electronic order into a well-defined, long-lived coherent lattice vibration. This mechanism may be exploited to transiently enhance order parameters in other systems with coupled degrees of freedom. [ABSTRACT FROM AUTHOR]

Published
2016
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38. Control of two-phonon correlations and the mechanism of high-wavevector phonon generation by ultrafast light pulses.

Author

Henighan, T., Trigo, M., Chollet, M., Clark, J. N., Fahy, S., Glownia, J. M., Jiang, M. P., Kozina, M., Liu, H., Song, S., Zhu, D., and Reis, D. A.

Subjects
*PHONONS, *ULTRASHORT laser pulses, *X-ray scattering
Abstract

Impulsive optical excitation can generate both coherent and squeezed phonons through first- and second-order Raman-like processes. The expectation value of the phonon displacement ⟨uq⟩ oscillates at the phonon mode frequency for the coherent state but remains zero for a pure squeezed state. In contrast, both show oscillations in ⟨|uq|²⟩ at twice the phonon mode frequency. Therefore it can be difficult to distinguish them in a second-order measurement of the displacements as is typical in x-ray diffuse scattering. Here we demonstrate a simple method to distinguish the generation mechanism by measurement of the diffuse scattering following double-impulsive excitation. We find in the case of Ge and GaAs that the generation of large wavevector phonons spanning the Brillouin zone is dominated by a second-order process. [ABSTRACT FROM AUTHOR]

Published
2016
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39. Glownia et al. Reply.

Author

Glownia JM, Natan A, Cryan JP, Hartsock R, Kozina M, Minitti MP, Nelson S, Robinson J, Sato T, van Driel T, Welch G, Weninger C, Zhu D, and Bucksbaum PH

Published
2017
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40. Ultrafast X-ray diffraction probe of terahertz field-driven soft mode dynamics in SrTiO 3 .

Author

Kozina M, van Driel T, Chollet M, Sato T, Glownia JM, Wandel S, Radovic M, Staub U, and Hoffmann MC

Abstract

We use ultrafast X-ray pulses to characterize the lattice response of SrTiO 3 when driven by strong terahertz fields. We observe transient changes in the diffraction intensity with a delayed onset with respect to the driving field. Fourier analysis reveals two frequency components corresponding to the two lowest energy zone-center optical modes in SrTiO 3 . The lower frequency mode exhibits clear softening as the temperature is decreased while the higher frequency mode shows slight temperature dependence.

Published
2017
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41. Itinerant and Localized Magnetization Dynamics in Antiferromagnetic Ho.

Author

Rettig L, Dornes C, Thielemann-Kühn N, Pontius N, Zabel H, Schlagel DL, Lograsso TA, Chollet M, Robert A, Sikorski M, Song S, Glownia JM, Schüßler-Langeheine C, Johnson SL, and Staub U

Abstract

Using femtosecond time-resolved resonant magnetic x-ray diffraction at the Ho L&#95;{3} absorption edge, we investigate the demagnetization dynamics in antiferromagnetically ordered metallic Ho after femtosecond optical excitation. Tuning the x-ray energy to the electric dipole (E1, 2p→5d) or quadrupole (E2, 2p→4f) transition allows us to selectively and independently study the spin dynamics of the itinerant 5d and localized 4f electronic subsystems via the suppression of the magnetic (2 1 3-τ) satellite peak. We find demagnetization time scales very similar to ferromagnetic 4f systems, suggesting that the loss of magnetic order occurs via a similar spin-flip process in both cases. The simultaneous demagnetization of both subsystems demonstrates strong intra-atomic 4f-5d exchange coupling. In addition, an ultrafast lattice contraction due to the release of magneto-striction leads to a transient shift of the magnetic satellite peak.

Published
2016
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42. Ultrafast energy- and momentum-resolved dynamics of magnetic correlations in the photo-doped Mott insulator Sr2IrO4.

Author

Dean MP, Cao Y, Liu X, Wall S, Zhu D, Mankowsky R, Thampy V, Chen XM, Vale JG, Casa D, Kim J, Said AH, Juhas P, Alonso-Mori R, Glownia JM, Robert A, Robinson J, Sikorski M, Song S, Kozina M, Lemke H, Patthey L, Owada S, Katayama T, Yabashi M, Tanaka Y, Togashi T, Liu J, Rayan Serrao C, Kim BJ, Huber L, Chang CL, McMorrow DF, Först M, and Hill JP

Subjects
Iridium chemistry, Magnetic Fields, Molecular Dynamics Simulation, Strontium chemistry, Superconductivity
Abstract

Measuring how the magnetic correlations evolve in doped Mott insulators has greatly improved our understanding of the pseudogap, non-Fermi liquids and high-temperature superconductivity. Recently, photo-excitation has been used to induce similarly exotic states transiently. However, the lack of available probes of magnetic correlations in the time domain hinders our understanding of these photo-induced states and how they could be controlled. Here, we implement magnetic resonant inelastic X-ray scattering at a free-electron laser to directly determine the magnetic dynamics after photo-doping the Mott insulator Sr2IrO4. We find that the non-equilibrium state, 2 ps after the excitation, exhibits strongly suppressed long-range magnetic order, but hosts photo-carriers that induce strong, non-thermal magnetic correlations. These two-dimensional (2D) in-plane Néel correlations recover within a few picoseconds, whereas the three-dimensional (3D) long-range magnetic order restores on a fluence-dependent timescale of a few hundred picoseconds. The marked difference in these two timescales implies that the dimensionality of magnetic correlations is vital for our understanding of ultrafast magnetic dynamics.

Published
2016
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43. Activation of coherent lattice phonon following ultrafast molecular spin-state photo-switching: A molecule-to-lattice energy transfer.

Author

Marino A, Cammarata M, Matar SF, Létard JF, Chastanet G, Chollet M, Glownia JM, Lemke HT, and Collet E

Abstract

We combine ultrafast optical spectroscopy with femtosecond X-ray absorption to study the photo-switching dynamics of the [Fe(PM-AzA)2(NCS)2] spin-crossover molecular solid. The light-induced excited spin-state trapping process switches the molecules from low spin to high spin (HS) states on the sub-picosecond timescale. The change of the electronic state (<50 fs) induces a structural reorganization of the molecule within 160 fs. This transformation is accompanied by coherent molecular vibrations in the HS potential and especially a rapidly damped Fe-ligand breathing mode. The time-resolved studies evidence a delayed activation of coherent optical phonons of the lattice surrounding the photoexcited molecules.

Published
2015
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44. Direct characterization of photoinduced lattice dynamics in BaFe2As2.

Author

Gerber S, Kim KW, Zhang Y, Zhu D, Plonka N, Yi M, Dakovski GL, Leuenberger D, Kirchmann PS, Moore RG, Chollet M, Glownia JM, Feng Y, Lee JS, Mehta A, Kemper AF, Wolf T, Chuang YD, Hussain Z, Kao CC, Moritz B, Shen ZX, Devereaux TP, and Lee WS

Abstract

Ultrafast light pulses can modify electronic properties of quantum materials by perturbing the underlying, intertwined degrees of freedom. In particular, iron-based superconductors exhibit a strong coupling among electronic nematic fluctuations, spins and the lattice, serving as a playground for ultrafast manipulation. Here we use time-resolved X-ray scattering to measure the lattice dynamics of photoexcited BaFe2As2. On optical excitation, no signature of an ultrafast change of the crystal symmetry is observed, but the lattice oscillates rapidly in time due to the coherent excitation of an A1g mode that modulates the Fe-As-Fe bond angle. We directly quantify the coherent lattice dynamics and show that even a small photoinduced lattice distortion can induce notable changes in the electronic and magnetic properties. Our analysis implies that transient structural modification can be an effective tool for manipulating the electronic properties of multi-orbital systems, where electronic instabilities are sensitive to the orbital character of bands.

Published
2015
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45. Performance of a beam-multiplexing diamond crystal monochromator at the Linac Coherent Light Source.

Author

Zhu D, Feng Y, Stoupin S, Terentyev SA, Lemke HT, Fritz DM, Chollet M, Glownia JM, Alonso-Mori R, Sikorski M, Song S, van Driel TB, Williams GJ, Messerschmidt M, Boutet S, Blank VD, Shvyd'ko YV, and Robert A

Abstract

A double-crystal diamond monochromator was recently implemented at the Linac Coherent Light Source. It enables splitting pulses generated by the free electron laser in the hard x-ray regime and thus allows the simultaneous operations of two instruments. Both monochromator crystals are High-Pressure High-Temperature grown type-IIa diamond crystal plates with the (111) orientation. The first crystal has a thickness of ~100 μm to allow high reflectivity within the Bragg bandwidth and good transmission for the other wavelengths for downstream use. The second crystal is about 300 μm thick and makes the exit beam of the monochromator parallel to the incoming beam with an offset of 600 mm. Here we present details on the monochromator design and its performance.

Published
2014
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46. Dynamics of hollow atom formation in intense x-ray pulses probed by partial covariance mapping.

Author

Frasinski LJ, Zhaunerchyk V, Mucke M, Squibb RJ, Siano M, Eland JH, Linusson P, v d Meulen P, Salén P, Thomas RD, Larsson M, Foucar L, Ullrich J, Motomura K, Mondal S, Ueda K, Osipov T, Fang L, Murphy BF, Berrah N, Bostedt C, Bozek JD, Schorb S, Messerschmidt M, Glownia JM, Cryan JP, Coffee RN, Takahashi O, Wada S, Piancastelli MN, Richter R, Prince KC, and Feifel R

Abstract

When exposed to ultraintense x-radiation sources such as free electron lasers (FELs) the innermost electronic shell can efficiently be emptied, creating a transient hollow atom or molecule. Understanding the femtosecond dynamics of such systems is fundamental to achieving atomic resolution in flash diffraction imaging of noncrystallized complex biological samples. We demonstrate the capacity of a correlation method called "partial covariance mapping" to probe the electron dynamics of neon atoms exposed to intense 8 fs pulses of 1062 eV photons. A complete picture of ionization processes competing in hollow atom formation and decay is visualized with unprecedented ease and the map reveals hitherto unobserved nonlinear sequences of photoionization and Auger events. The technique is particularly well suited to the high counting rate inherent in FEL experiments.

Published
2013
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47. Spectral encoding of x-ray/optical relative delay.

Author

Bionta MR, Lemke HT, Cryan JP, Glownia JM, Bostedt C, Cammarata M, Castagna JC, Ding Y, Fritz DM, Fry AR, Krzywinski J, Messerschmidt M, Schorb S, Swiggers ML, and Coffee RN

Abstract

We present a new technique for measuring the relative delay between a soft x-ray FEL pulse and an optical laser that indicates a sub 25 fs RMS measurement error. An ultra-short x-ray pulse photo-ionizes a semiconductor (Si(3)N(4)) membrane and changes the optical transmission. An optical continuum pulse with a temporally chirped bandwidth spanning 630 nm-710 nm interacts with the membrane such that the timing of the x-ray pulse can be determined from the onset of the spectral modulation of the transmitted optical pulse. This experiment demonstrates a nearly in situ single-shot measurement of the x-ray pulse arrival time relative to the ultra-short optical pulse., (© 2011 Optical Society of America)

Published
2011
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48. Nonlinear atomic response to intense ultrashort x rays.

Author

Doumy G, Roedig C, Son SK, Blaga CI, DiChiara AD, Santra R, Berrah N, Bostedt C, Bozek JD, Bucksbaum PH, Cryan JP, Fang L, Ghimire S, Glownia JM, Hoener M, Kanter EP, Krässig B, Kuebel M, Messerschmidt M, Paulus GG, Reis DA, Rohringer N, Young L, Agostini P, and DiMauro LF

Abstract

The nonlinear absorption mechanisms of neon atoms to intense, femtosecond kilovolt x rays are investigated. The production of Ne(9+) is observed at x-ray frequencies below the Ne(8+), 1s(2) absorption edge and demonstrates a clear quadratic dependence on fluence. Theoretical analysis shows that the production is a combination of the two-photon ionization of Ne(8+) ground state and a high-order sequential process involving single-photon production and ionization of transient excited states on a time scale faster than the Auger decay. We find that the nonlinear direct two-photon ionization cross section is orders of magnitude higher than expected from previous calculations., (© 2011 American Physical Society)

Published
2011
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49. Auger electron angular distribution of double core-hole states in the molecular reference frame.

Author

Cryan JP, Glownia JM, Andreasson J, Belkacem A, Berrah N, Blaga CI, Bostedt C, Bozek J, Buth C, DiMauro LF, Fang L, Gessner O, Guehr M, Hajdu J, Hertlein MP, Hoener M, Kornilov O, Marangos JP, March AM, McFarland BK, Merdji H, Petrović VS, Raman C, Ray D, Reis D, Tarantelli F, Trigo M, White JL, White W, Young L, Bucksbaum PH, and Coffee RN

Subjects
Light, Nitrogen chemistry, Quantum Theory, Spectrum Analysis, Time Factors, Electrons, Physical Phenomena
Abstract

The Linac Coherent Light Source free electron laser is a source of high brightness x rays, 2×10(11) photons in a ∼5 fs pulse, that can be focused to produce double core vacancies through rapid sequential ionization. This enables double core vacancy Auger electron spectroscopy, an entirely new way to study femtosecond chemical dynamics with Auger electrons that probe the local valence structure of molecules near a specific atomic core. Using 1.1 keV photons for sequential x-ray ionization of impulsively aligned molecular nitrogen, we observed a rich single-site double core vacancy Auger electron spectrum near 413 eV, in good agreement with ab initio calculations, and we measured the corresponding Auger electron angle dependence in the molecular frame.

Published
2010
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