Your search keyword '"Coslovich, Giacomo"' showing total 140 results

1. Orbital-selective time-domain signature of nematicity dynamics in the charge-density-wave phase of La$_{1.65}$Eu$_{0.2}$Sr$_{0.15}$CuO$_4$

Author

Bluschke, Martin, Gupta, Naman K., Jang, Hoyoung, Husain, Ali A., Lee, Byungjune, Na, MengXing, Remedios, Brandon Dos, Smit, Steef, Moen, Peter, Park, Sang-Youn, Kim, Minseok, Jang, Dogeun, Choi, Hyeongi, Sutarto, Ronny, Reid, Alexander H., Dakovski, Georgi L., Coslovich, Giacomo, Nguyen, Quynh L., Burdet, Nicolas G., Lin, Ming-Fu, Revcolevschi, Alexandre, Park, Jae-Hoon, Geck, Jochen, Turner, Joshua J., Damascelli, Andrea, and Hawthorn, David G.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

Understanding the interplay between charge, nematic, and structural ordering tendencies in cuprate superconductors is critical to unraveling their complex phase diagram. Using pump-probe time-resolved resonant x-ray scattering on the (0 0 1) Bragg peak at the Cu $L_3$ and O $K$ resonances, we investigate non-equilibrium dynamics of $Q_a = Q_b = 0$ nematic order and its association with both charge density wave (CDW) order and lattice dynamics in La$_{1.65}$Eu$_{0.2}$Sr$_{0.15}$CuO$_4$. The orbital selectivity of the resonant x-ray scattering cross-section allows nematicity dynamics associated with the planar O 2$p$ and Cu 3$d$ states to be distinguished from the response of anisotropic lattice distortions. A direct time-domain comparison of CDW translational-symmetry breaking and nematic rotational-symmetry breaking reveals that these broken symmetries remain closely linked in the photoexcited state, consistent with the stability of CDW topological defects in the investigated pump fluence regime., Comment: 19 pages, 5 figures

Published

2022

2. Anisotropic Surface Broadening and Core Depletion during the Evolution of a Strong-Field Induced Nanoplasma

Author

Bacellar, Camila, Chatterley, Adam S, Lackner, Florian, Pemmaraju, CD, Tanyag, Rico Mayro P, Verma, Deepak, Bernando, Charles, O’Connell, Sean MO, Bucher, Maximilian, Ferguson, Ken R, Gorkhover, Tais, Coffee, Ryan N, Coslovich, Giacomo, Ray, Dipanwita, Osipov, Timur, Neumark, Daniel M, Bostedt, Christoph, Vilesov, Andrey F, and Gessner, Oliver

Subjects

Quantum Physics, Physical Sciences, Mathematical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences

Abstract

Strong-field ionization of nanoscale clusters provides excellent opportunities to study the complex correlated electronic and nuclear dynamics of near-solid density plasmas. Yet, monitoring ultrafast, nanoscopic dynamics in real-time is challenging, which often complicates a direct comparison between theory and experiment. Here, near-infrared laser-induced plasma dynamics in ∼600  nm diameter helium droplets are studied by femtosecond time-resolved x-ray coherent diffractive imaging. An anisotropic, ∼20  nm wide surface region, defined as the range where the density lies between 10% and 90% of the core value, is established within ∼100  fs, in qualitative agreement with theoretical predictions. At longer timescales, however, the width of this region remains largely constant while the radius of the dense plasma core shrinks at average rates of ≈71  nm/ps along and ≈33  nm/ps perpendicular to the laser polarization. These dynamics are not captured by previous plasma expansion models. The observations are phenomenologically described within a numerical simulation; details of the underlying physics, however, remain to be explored.

Published

2022

3. State-resolved ultrafast charge and spin dynamics in [Co/Pd] multilayers

Author

Guyader, Loïc Le, Higley, Daniel J., Pancaldi, Matteo, Liu, Tianmin, Chen, Zhao, Chase, Tyler, Granitzka, Patrick W., Coslovich, Giacomo, Lutman, Alberto A., Dakovski, Georgi L., Schlotter, William F., Shafer, Padraic, Arenholz, Elke, Hellwig, Olav, Lalieu, Mark L. M., Koopmans, Bert, Reid, Alexander H., Bonetti, Stefano, Stöhr, Joachim, and Dürr, Hermann A.

Subjects

Condensed Matter - Materials Science

Abstract

We use transient absorption spectroscopy with circularly polarized x-rays to detect laser-excited hole states below the Fermi level and compare their dynamics with that of unoccupied states above the Fermi level in ferromagnetic [Co/Pd] multilayers. While below the Fermi level an instantaneous and significantly stronger demagnetization is observed, above the Fermi level the demagnetization is delayed by 35+/-10 fs. This provides a direct visualization of how ultrafast demagnetization proceeds via initial spin-flip scattering of laser-excited holes to the subsequent formation of spin waves., Comment: 10 pages, 4 figures. The following article has been submitted to Applied Physics Letters. After it is published, it will be found at https://publishing.aip.org/resources/librarians/products/journals/

Published

2021

4. Transient Resonant Auger-Meitner Spectra of Photoexcited Thymine

Author

Wolf, Thomas J. A., Paul, Alexander C., Folkestad, Sarai D., Myhre, Rolf H., Cryan, James P., Berrah, Nora, Bucksbaum, Phil H., Coriani, Sonia, Coslovich, Giacomo, Feifel, Raimund, Martinez, Todd J., Moeller, Stefan P., Mucke, Melanie, Obaid, Razib, Plekan, Oksana, Squibb, Richard J., Koch, Henrik, and Gühr, Markus

Subjects

Physics - Chemical Physics

Abstract

We present the first investigation of excited state dynamics by resonant Auger-Meitner spectroscopy (also known as resonant Auger spectroscopy) using the nucleobase thymine as an example. Thymine is photoexcited in the UV and probed with X-ray photon energies at and below the oxygen K-edge. After initial photoexcitation to a {\pi}{\pi}* excited state, thymine is known to undergo internal conversion to an n{\pi}* excited state with a strong resonance at the oxygen K-edge, red-shifted from the ground state {\pi}* resonances of thymine (see our previous study Wolf et al., Nat. Commun., 2017, 8, 29). We resolve and compare the Auger-Meitner electron spectra associated both with the excited state and ground state resonances, and distinguish participator and spectator decay contributions. Furthermore, we observe simultaneously with the decay of the n{\pi}* state signatures the appearance of additional resonant Auger-Meitner contributions at photon energies between the n{\pi}* state and the ground state resonances. We assign these contributions to population transfer from the n{\pi}* state to a {\pi}{\pi}* triplet state via intersystem crossing on the picosecond timescale based on simulations of the X-ray absorption spectra in the vibrationally hot triplet state. Moreover, we identify signatures from the initially excited {\pi}{\pi}* singlet state which we have not observed in our previous study.

Published

2020

5. Ultrafast perturbation of magnetic domains by optical pumping in a ferromagnetic multilayer

Author

Zusin, Dmitriy, Iacocca, Ezio, Guyader, Loïc Le, Reid, Alexander H., Schlotter, William F., Liu, Tian-Min, Higley, Daniel J., Coslovich, Giacomo, Wandel, Scott F., Tengdin, Phoebe M., Patel, Sheena K. K., Shabalin, Anatoly, Hua, Nelson, Hrkac, Stjepan B., Nembach, Hans T., Shaw, Justin M., Montoya, Sergio A., Blonsky, Adam, Gentry, Christian, Hoefer, Mark A., Murnane, Margaret M., Kapteyn, Henry C., Fullerton, Eric E., Shpyrko, Oleg, Dürr, Hermann A., and Silva, T. J.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Ultrafast optical pumping of spatially nonuniform magnetic textures is known to induce far-from-equilibrium spin transport effects. Here, we use ultrafast x-ray diffraction with unprecedented dynamic range to study the laser-induced dynamics of labyrinth domain networks in ferromagnetic CoFe/Ni multilayers. We detected azimuthally isotropic, odd order, magnetic diffraction rings up to 5th order. The amplitudes of all three diffraction rings quench to different degrees within 1.6 ps. In addition, all three of the detected diffraction rings both broaden by 15% and radially contract by 6% during the quench process. We are able to rigorously quantify a 31% ultrafast broadening of the domain walls via Fourier analysis of the order-dependent quenching of the three detected diffraction rings. The broadening of the diffraction rings is interpreted as a reduction in the domain coherence length, but the shift in the ring radius, while unambiguous in its occurrence, remains unexplained. In particular, we demonstrate that a radial shift explained by domain wall broadening can be ruled out. With the unprecedented dynamic range of our data, our results provide convincing evidence that labyrinth domain structures are spatially perturbed at ultrafast speeds under far-from-equilibrium conditions, albeit the mechanism inducing the perturbations remains yet to be clarified.

Published

2020

6. Evidence for photoinduced sliding of the charge-order condensate in La$_{1.875}$Ba$_{0.125}$CuO$_4$

Author

Mitrano, Matteo, Lee, Sangjun, Husain, Ali A., Zhu, Minhui, Munoz, Gilberto de la Peña, Sun, Stella X. -L., Joe, Young Il, Reid, Alexander H., Wandel, Scott F., Coslovich, Giacomo, Schlotter, William, van Driel, Tim, Schneeloch, John, Gu, G. D., Goldenfeld, Nigel, and Abbamonte, Peter

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Superconductivity

Abstract

We use femtosecond resonant soft x-ray scattering to measure the ultrafast optical melting of charge-order correlations in La$_{1.875}$Ba$_{0.125}$CuO$_4$. By analyzing both the energy-resolved and energy-integrated order parameter dynamics, we find evidence of a short-lived nonequilibrium state, whose features are compatible with a sliding charge density wave coherently set in motion by the pump. This transient state exhibits shifts in both the quasielastic line energy and its wave vector, as expected from a classical Doppler effect. The wave vector change is indeed found to directly follow the pump propagation direction. These results demonstrate the existence of sliding charge order behavior in an unconventional charge density wave system and underscore the power of ultrafast optical excitation as a tool to coherently manipulate electronic condensates., Comment: 8 pages, 9 figures, 39 references

Published

2019

7. Orbital dynamics during an ultrafast insulator to metal transition

Author

Parchenko, Sergii, Paris, Eugenio, McNally, Daniel, Abreu, Elsa, Dantz, Marcus, Bothschafter, Elisabeth M., Reid, Alexander H., Schlotter, William F., Lin, Ming-Fu, Wandel, Scott F., Coslovich, Giacomo, Zohar, Sioan, Dakovski, Georgi L., Turner, Joshua. J., Moeller, Stefan, Tseng, Yi, Radovic, Milan, Saathe, Conny, Agaaker, Marcus, Nordgren, Joseph E., Johnson, Steven L., Schmitt, Thorsten, and Staub, Urs

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Phase transitions driven by ultrashort laser pulses have attracted interest both for understanding the fundamental physics of phase transitions and for potential new data storage or device applications. In many cases these transitions involve transient states that are different from those seen in equilibrium. To understand the microscopic properties of these states, it is useful to develop elementally selective probing techniques that operate in the time domain. Here we show fs-time-resolved measurements of V Ledge Resonant Inelastic X-Ray Scattering (RIXS) from the insulating phase of the Mott- Hubbard material V2O3 after ultrafast laser excitation. The probed orbital excitations within the d-shell of the V ion show a sub-ps time response, which evolve at later times to a state that appears electronically indistinguishable from the high-temperature metallic state. Our results demonstrate the potential for RIXS spectroscopy to study the ultrafast orbital dynamics in strongly correlated materials., Comment: 12 pages, 4 figures

Published

2019

8. Tunable Isolated Attosecond X-ray Pulses with Gigawatt Peak Power from a Free-Electron Laser

Author

Duris, Joseph, Li, Siqi, Driver, Taran, Champenois, Elio G., MacArthur, James P., Lutman, Alberto A., Zhang, Zhen, Rosenberger, Philipp, Aldrich, Jeff W., Coffee, Ryan, Coslovich, Giacomo, Decker, Franz-Josef, Glownia, James M., Hartmann, Gregor, Helml, Wolfram, Kamalov, Andrei, Knurr, Jonas, Krzywinski, Jacek, Lin, Ming-Fu, Nantel, Megan, Natan, Adi, O'Neal, Jordan, Shivaram, Niranjan, Walter, Peter, Wang, Anna, Welch, James J., Wolf, Thomas J. A., Xu, Joseph Z., Kling, Matthias F., Bucksbaum, Philip~H., Zholents, Alexander, Huang, Zhirong, Cryan, James P., and Marinelli, Agostino

Subjects

Physics - Optics, Physics - Accelerator Physics

Abstract

The quantum mechanical motion of electrons in molecules and solids occurs on the sub-femtosecond timescale. Consequently, the study of ultrafast electronic phenomena requires the generation of laser pulses shorter than 1 fs and of sufficient intensity to interact with their target with high probability. Probing these dynamics with atomic-site specificity requires the extension of sub-femtosecond pulses to the soft X-ray spectral region. Here we report the generation of isolated GW-scale soft X-ray attosecond pulses with an X-ray free-electron laser. Our source has a pulse energy that is six orders of magnitude larger than any other source of isolated attosecond pulses in the soft X-ray spectral region, with a peak power in the tens of gigawatts. This unique combination of high intensity, high photon energy and short pulse duration enables the investigation of electron dynamics with X-ray non-linear spectroscopy and single-particle imaging.

Published

2019

9. Ultrafast time-resolved x-ray scattering reveals diffusive charge order dynamics in La$_{2-x}$Ba$_x$CuO$_4$

Author

Mitrano, Matteo, Lee, Sangjun, Husain, Ali A., Delacretaz, Luca, Zhu, Minhui, Munoz, Gilberto de la Peña, Sun, Stella, Joe, Young Il, Reid, Alexander H., Wandel, Scott F., Coslovich, Giacomo, Schlotter, William, van Driel, Tim, Schneeloch, John, Gu, Genda D., Hartnoll, Sean, Goldenfeld, Nigel, and Abbamonte, Peter

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Superconductivity

Abstract

Charge order is universal among high-T$_c$ cuprates but its relevance to superconductivity is not established. It is widely believed that, while static order competes with superconductivity, dynamic order may be favorable and even contribute to Cooper pairing. We use time-resolved resonant soft x-ray scattering to study the collective dynamics of the charge order in the prototypical cuprate, La$_{2-x}$Ba$_x$CuO$_4$. We find that, at energy scales $0.4$ meV $ \lesssim \omega \lesssim 2$ meV, the excitations are overdamped and propagate via Brownian-like diffusion. At energy scales below 0.4 meV the charge order exhibits dynamic critical scaling, displaying universal behavior arising from propagation of topological defects. Our study implies that charge order is dynamic, so may participate tangibly in superconductivity., Comment: 31 pages, 4 figures, 8 supplementary figures, revised paragraph formatting

Published

2018

10. Ultrafast Dynamics of Vibrational Symmetry Breaking in a Charge-ordered Nickelate

Author

Coslovich, Giacomo, Kemper, Alexander F., Behl, Sascha, Huber, Bernhard, Bechtel, Hans A., Sasagawa, Takao, Martin, Michael C., Lanzara, Alessandra, and Kaindl, Robert A.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Superconductivity

Abstract

The ability to probe symmetry breaking transitions on their natural time scales is one of the key challenges in nonequilibrium physics. Stripe ordering represents an intriguing type of broken symmetry, where complex interactions result in atomic-scale lines of charge and spin density. Although phonon anomalies and periodic distortions attest the importance of electron-phonon coupling in the formation of stripe phases, a direct time-domain view of vibrational symmetry breaking is lacking. We report experiments that track the transient multi-THz response of the model stripe compound La$_{1.75}$Sr$_{0.25}$NiO$_{4}$, yielding novel insight into its electronic and structural dynamics following an ultrafast optical quench. We find that although electronic carriers are immediately delocalized, the crystal symmetry remains initially frozen - as witnessed by time-delayed suppression of zone-folded Ni-O bending modes acting as a fingerprint of lattice symmetry. Longitudinal and transverse vibrations react with different speeds, indicating a strong directionality and an important role of polar interactions. The hidden complexity of electronic and structural coupling during stripe melting and formation, captured here within a single terahertz spectrum, opens new paths to understanding symmetry breaking dynamics in solids., Comment: 21 pages, 4 figures; updated version with journal ref

Published

2016

11. Ultrafast dynamics of vibrational symmetry breaking in a charge-ordered nickelate.

Author

Coslovich, Giacomo, Kemper, Alexander F, Behl, Sascha, Huber, Bernhard, Bechtel, Hans A, Sasagawa, Takao, Martin, Michael C, Lanzara, Alessandra, and Kaindl, Robert A

Subjects

cond-mat.str-el, cond-mat.mtrl-sci, cond-mat.supr-con

Abstract

The ability to probe symmetry-breaking transitions on their natural time scales is one of the key challenges in nonequilibrium physics. Stripe ordering represents an intriguing type of broken symmetry, where complex interactions result in atomic-scale lines of charge and spin density. Although phonon anomalies and periodic distortions attest the importance of electron-phonon coupling in the formation of stripe phases, a direct time-domain view of vibrational symmetry breaking is lacking. We report experiments that track the transient multi-terahertz response of the model stripe compound La1.75Sr0.25NiO4, yielding novel insight into its electronic and structural dynamics following an ultrafast optical quench. We find that although electronic carriers are immediately delocalized, the crystal symmetry remains initially frozen-as witnessed by time-delayed suppression of zone-folded Ni-O bending modes acting as a fingerprint of lattice symmetry. Longitudinal and transverse vibrations react with different speeds, indicating a strong directionality and an important role of polar interactions. The hidden complexity of electronic and structural coupling during stripe melting and formation, captured here within a single terahertz spectrum, opens new paths to understanding symmetry-breaking dynamics in solids.

Published

2017

12. Femtosecond X-ray magnetic circular dichroism absorption spectroscopy at an X-ray free electron laser

Author

Higley, Daniel J., Hirsch, Konstantin, Dakovski, Georgi L., Jal, Emmanuelle, Yuan, Edwin, Liu, Tianmin, Lutman, Alberto A., MacArthur, James P., Arenholz, Elke, Chen, Zhao, Coslovich, Giacomo, Denes, Peter, Granitzka, Patrick W., Hart, Philip, Hoffmann, Matthias C., Joseph, John, Guyader, Loïc Le, Mitra, Ankush, Moeller, Stefan, Ohldag, Hendrik, Seaberg, Matthew, Shafer, Padraic, Stöhr, Joachim, Tsukamoto, Arata, Nuhn, Heinz-Dieter, Reid, Alex H., Dürr, Hermann A., and Schlotter, William F.

Subjects

Condensed Matter - Materials Science

Abstract

X-ray magnetic circular dichroism spectroscopy using an X-ray free electron laser is demonstrated with spectra over the Fe L$_{3,2}$-edges. This new ultrafast time-resolved capability is then applied to a fluence-dependent study of all-optical magnetic switching dynamics of Fe and Gd magnetic sublattices in a GdFeCo thin film above its magnetization compensation temperature. At the magnetic switching fuence, we corroborate the existence of a transient ferromagnetic-like state. The timescales of the dynamics, however, are longer than previously observed below the magnetization compensation temperature. Above and below the switching fluence range, we observe secondary demagnetization with about 5 ps timescales. This indicates that the spin thermalization takes longer than 5 ps., Comment: 5 pages, 4 figures

Published

2015

13. Ultrafast perturbation of magnetic domains by optical pumping in a ferromagnetic multilayer

Author

Zusin, Dmitriy, primary, Iacocca, Ezio, additional, Guyader, Loïc, additional, Reid, Alexander, additional, Schlotter, William, additional, Liu, Tian-Min, additional, Higley, Daniel, additional, Coslovich, Giacomo, additional, Wandel, Scott, additional, Tengdin, Phoebe, additional, Patel, Sheena, additional, Shabalin, Anatoly, additional, Hua, Nelson, additional, Hrkac, Stjepan, additional, Nembach, Hans, additional, Shaw, Justin, additional, Montoya, Sergio, additional, Blonsky, Adam, additional, Gentry, Christian, additional, Hoefer, Mark, additional, Murnane, Margaret, additional, Kapteyn, Henry, additional, Fullerton, Eric, additional, Shpyrko, Oleg, additional, Dürr, Hermann, additional, and Silva, Thomas, additional

Published

2022

14. Photo-enhanced antinodal conductivity in the pseudogap state of high Tc cuprates

Author

Cilento, Federico, Conte, Stefano Dal, Coslovich, Giacomo, Peli, Simone, Nembrini, Nicola, Mor, Selene, Banfi, Francesco, Ferrini, Gabriele, Eisaki, Hiroshi, Chan, Mun K., Dorow, Chelsey, Veit, Michael, Greven, Martin, van der Marel, Dirk, Comin, Riccardo, Damascelli, Andrea, Rettig, Laurenz, Bovensiepen, Uwe, Capone, Massimo, Giannetti, Claudio, and Parmigiani, Fulvio

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A major challenge in understanding the cuprate superconductors is to clarify the nature of the fundamental electronic correlations that lead to the pseudogap phenomenon. Here we use ultrashort light pulses to prepare a non-thermal distribution of excitations and capture novel properties that are hidden at equilibrium. Using a broadband (0.5-2 eV) probe we are able to track the dynamics of the dielectric function, unveiling an anomalous decrease of the scattering rate of the charge carriers in a pseudogap-like region of the temperature ($T$) and hole-doping ($p$) phase diagram. In this region, delimited by a well-defined $T^*_{neq}(p)$ line, the photo-excitation process triggers the evolution of antinodal excitations from gapped (localized) to delocalized quasi-particles characterized by a longer lifetime. The novel concept of photo-enhanced antinodal conductivity is naturally explained within the single-band Hubbard model, in which the short-range Coulomb repulsion leads to a k-space differentiation between "nodal" quasiparticles and antinodal excitations., Comment: accepted for publication on Nature Communications

Published

2014

15. Tunable isolated attosecond X-ray pulses with gigawatt peak power from a free-electron laser

Author

Duris, Joseph, Li, Siqi, Driver, Taran, Champenois, Elio G., MacArthur, James P., Lutman, Alberto A., Zhang, Zhen, Rosenberger, Philipp, Aldrich, Jeff W., Coffee, Ryan, Coslovich, Giacomo, Decker, Franz-Josef, Glownia, James M., Hartmann, Gregor, Helml, Wolfram, Kamalov, Andrei, Knurr, Jonas, Krzywinski, Jacek, Lin, Ming-Fu, Marangos, Jon P., Nantel, Megan, Natan, Adi, O’Neal, Jordan T., Shivaram, Niranjan, Walter, Peter, Wang, Anna Li, Welch, James J., Wolf, Thomas J. A., Xu, Joseph Z., Kling, Matthias F., Bucksbaum, Philip H., Zholents, Alexander, Huang, Zhirong, Cryan, James P., and Marinelli, Agostino

Published

2020

16. In search for the pairing glue in cuprates by non-equilibrium optical spectroscopy

Author

Cilento, Federico, Conte, Stefano Dal, Coslovich, Giacomo, Banfi, Francesco, Ferrini, Gabriele, Eisaki, Hiroshi, Greven, Martin, Damascelli, Andrea, van der Marel, Dirk, Parmigiani, Fulvio, and Giannetti, Claudio

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

In strongly correlated materials the electronic and optical properties are significantly affected by the coupling of fermionic quasiparticles to different degrees of freedom, such as lattice vibrations and bosonic excitations of electronic origin. Broadband ultrafast spectroscopy is emerging as the premier technique to unravel the subtle interplay between quasiparticles and electronic or phononic collective excitations, by their different characteristic timescales and spectral responses. By investigating the femtosecond dynamics of the optical properties of Y-Bi2212 crystals over the 0.5-2 eV energy range, we disentangle the electronic and phononic contributions to the generalized electron-boson Eliashberg function, showing that the spectral distribution of the electronic excitations, such as spin fluctuations and current loops, and the strength of their interaction with quasiparticles can account for the high critical temperature of the superconducting phase transition. Finally, we discuss how the use of this technique can be extended to the underdoped region of the phase diagram of cuprates, in which a pseudogap in the quasiparticle density of states opens. The microscopic modeling of the interaction of ultrashort light pulses with unconventional superconductors will be one of the key challenges of the next-years materials science, eventually leading to the full understanding of the role of the electronic correlations in controlling the dynamics on the femtosecond timescale., Comment: 15 pages, 5 figures, Invited manuscript for the proceedings of "Materials & Mechanisms of Superconductivity" (M2S), Washington, 2012

Published

2013

17. Disentangling the electronic and phononic glue in a high-Tc superconductor

Author

Conte, Stefano Dal, Giannetti, Claudio, Coslovich, Giacomo, Cilento, Federico, Bossini, Davide, Abebaw, Tadesse, Banfi, Franceco, Ferrini, Gabriele, Eisaki, Hiroshi, Greven, Martin, Damascelli, Andrea, van der Marel, Dirk, and Parmigiani, F.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

Unveiling the nature of the bosonic excitations that mediate the formation of Cooper pairs is a key issue for understanding unconventional superconductivity. A fundamen- tal step toward this goal would be to identify the relative weight of the electronic and phononic contributions to the overall frequency (\Omega) dependent bosonic function, \Pi(\Omega). We perform optical spectroscopy on Bi2212 crystals with simultaneous time- and frequency-resolution; this technique allows us to disentangle the electronic and phononic contributions by their different temporal evolution. The strength of the interaction ({\lambda}~1.1) with the electronic excitations and their spectral distribution fully account for the high critical temperature of the superconducting phase transition., Comment: 9 pages, 4 figures

Published

2012

18. Revealing the high-energy electronic excitations underlying the onset of high-temperature superconductivity in cuprates

Author

Giannetti, Claudio, Cilento, Federico, Conte, Stefano Dal, Coslovich, Giacomo, Ferrini, Gabriele, Molegraaf, Hajo, Raichle, Markus, Liang, Ruixing, Eisaki, Hiroshi, Greven, Martin, Damascelli, Andrea, van der Marel, Dirk, and Parmigiani, Fulvio

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Superconductivity

Abstract

In strongly-correlated systems the electronic properties at the Fermi energy (EF) are intertwined with those at high energy scales. One of the pivotal challenges in the field of high-temperature superconductivity (HTSC) is to understand whether and how the high energy scale physics associated with Mott-like excitations (|E-E$_{F}$|>1 eV) is involved in the condensate formation. Here we show the interplay between the many-body high-energy CuO2 excitations at 1.5 and 2 eV and the onset of HTSC. This is revealed by a novel optical pump supercontinuum-probe technique, which provides access to the dynamics of the dielectric function in Bi$_2$Sr$_2$Ca$_{0.92}$Y$_{0.08}$Cu$_2$O$_{8+{\delta}}$ over an extended energy range, after the photoinduced suppression of the superconducting pairing. These results unveil an unconventional mechanism at the base of HTSC both below and above the optimal hole concentration required to attain the maximum critical temperature (T$_c$)., Comment: Text and Supplementary Information

Published

2011

19. Ultrafast insulator-to-metal phase transition as a switch to measure the spectrogram of a supercontinuum light pulse

Author

Cilento, Federico, Giannetti, Claudio, Ferrini, Gabriele, Conte, Stefano Dal, Sala, Tommaso, Coslovich, Giacomo, Rini, Matteo, Cavalleri, Andrea, and Parmigiani, Fulvio

Subjects

Physics - Optics

Abstract

In this letter we demonstrate the possibility to determine the temporal and spectral structure (spectrogram) of a complex light pulse exploiting the ultrafast switching character of a non-thermal photo-induced phase transition. As a proof, we use a VO2 multi-film, undergoing an ultrafast insulator-to-metal phase transition when excited by femtosecond near-infrared laser pulses. The abrupt variation of the multi-film optical properties, over a broad infrared/visible frequency range, is exploited to determine, in-situ and in a simple way, the spectrogram of a supercontinuum pulse produced by a photonic crystal fiber. The determination of the structure of the pulse is mandatory to develop new pump-probe experiments with frequency resolution over a broad spectral range (700-1100 nm)., Comment: 4 pages, 3 figures, letter

Published

2009

20. Atomic-Scale Perspective of Ultrafast Charge Transfer at a Dye-Semiconductor Interface.

Author

Siefermann, Katrin R, Pemmaraju, Chaitanya D, Neppl, Stefan, Shavorskiy, Andrey, Cordones, Amy A, Vura-Weis, Josh, Slaughter, Daniel S, Sturm, Felix P, Weise, Fabian, Bluhm, Hendrik, Strader, Matthew L, Cho, Hana, Lin, Ming-Fu, Bacellar, Camila, Khurmi, Champak, Guo, Jinghua, Coslovich, Giacomo, Robinson, Joseph S, Kaindl, Robert A, Schoenlein, Robert W, Belkacem, Ali, Neumark, Daniel M, Leone, Stephen R, Nordlund, Dennis, Ogasawara, Hirohito, Krupin, Oleg, Turner, Joshua J, Schlotter, William F, Holmes, Michael R, Messerschmidt, Marc, Minitti, Michael P, Gul, Sheraz, Zhang, Jin Z, Huse, Nils, Prendergast, David, and Gessner, Oliver

Subjects

X-ray free electron laser, constrained density functional theory, dye-sensitized solar cells, interfacial charge transfer, photocatalysis, time-resolved X-ray photoelectron spectroscopy, Affordable and Clean Energy, Physical Sciences, Chemical Sciences

Abstract

Understanding interfacial charge-transfer processes on the atomic level is crucial to support the rational design of energy-challenge relevant systems such as solar cells, batteries, and photocatalysts. A femtosecond time-resolved core-level photoelectron spectroscopy study is performed that probes the electronic structure of the interface between ruthenium-based N3 dye molecules and ZnO nanocrystals within the first picosecond after photoexcitation and from the unique perspective of the Ru reporter atom at the center of the dye. A transient chemical shift of the Ru 3d inner-shell photolines by (2.3 ± 0.2) eV to higher binding energies is observed 500 fs after photoexcitation of the dye. The experimental results are interpreted with the aid of ab initio calculations using constrained density functional theory. Strong indications for the formation of an interfacial charge-transfer state are presented, providing direct insight into a transient electronic configuration that may limit the efficiency of photoinduced free charge-carrier generation.

Published

2014

21. Orbital-selective time-domain signature of nematicity dynamics in the charge-density-wave phase of La1.65Eu0.2Sr0.15CuO4.

Author

Bluschke, Martin, Gupta, Naman K., Hoyoung Jang, Husain, Ali A., Byungjune Lee, Minjune Kim, MengXing Na, Dos Remedios, Brandon, Smit, Steef, Moen, Peter, Sang-Youn Park, Minseok Kim, Dogeun Jang, Hyeongi Choi, Sutarto, Ronny, Reid, Alexander H., Dakovski, Georgi L., Coslovich, Giacomo, Nguyen, Quynh L., and Burdet, Nicolas G.

Subjects

CHARGE density waves, HIGH temperature superconductors, X-ray scattering, LATTICE dynamics, COPPER

Abstract

Understanding the interplay between charge, nematic, and structural ordering tendencies in cuprate superconductors is critical to unraveling their complex phase diagram. Using pump-probe time-resolved resonant X-ray scattering on the (0 0 1) Bragg peak at the Cu L3 and O K resonances, we investigate nonequilibrium dynamics of Qa = Qb = 0 nematic order and its association with both charge density wave (CDW) order and lattice dynamics in La1.65Eu0.2Sr0.15CuO4. The orbital selectivity of the resonant X-ray scattering cross-section allows nematicity dynamics associated with the planar O 2p and Cu 3d states to be distinguished from the response of anisotropic lattice distortions. A direct time-domain comparison of CDW translational symmetry breaking and nematic rotational-symmetry breaking reveals that these broken symmetries remain closely linked in the photoexcited state, consistent with the stability of CDW topological defects in the investigated pump fluence regime. [ABSTRACT FROM AUTHOR]

Published

2024

22. Optical control of non-equilibrium superconducting phase transition below Tc in a cuprate

Author

Giannetti, Claudio, Coslovich, Giacomo, Cilento, Federico, Ferrini, Gabriele, Eisaki, Hiroshi, Kaneko, Nobuhisa, Greven, Martin, and Parmigiani, Fulvio

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Photoinduced phase transitions from insulating to metallic states, accompanied by structural re-arrangements, have been recently reported in complex transition-metal oxides. However, the optical control of a purely electronic phase transition, where the thermodynamic phase is determined by the distribution of excitations, has remained elusive. Here we report optical control of the electronic phase in an underdoped Bi2212 crystal through impulsive photoinjection of quasiparticles (QP) via ultrashort laser pulses, avoiding significant laser heating. An abrupt transition of the transient optical electronic response is observed at a critical fluence of Ipump=70 uJ/cm^2. We show that the measured dynamics is consistent with an inhomogenous first-order superconducting-to-normal state phase transition, triggered by a sudden shift of the chemical potential., Comment: Manuscript: 8 pages, 4 figures Supporting material: 2 pages

Published

2008

23. Ultrafast charge localization in a stripe-phase nickelate

Author

Coslovich, Giacomo

Subjects

Condensed matter physics, superconductivity and superfluidity, Materials science, Correlated electron materials, Charge stripes, Mid-Infrared Spectroscopy, Ultrafast Science

Abstract

Self-organized electronically-ordered phases are a recurring feature in correlated materials, resulting in e.g. fluctuating charge stripes whose role in high-Tc superconductivity is under debate. However, the relevant cause-effect relations between real-space charge correlations and low-energy excitations remain hidden in time-averaged studies. Here, we reveal ultrafast charge localization and lattice vibrational coupling as dynamical precursors of stripe formation in the model compound La1.75Sr0.25NiO4, using ultrafast and equilibrium mid-infrared spectroscopy. The opening of a pseudogap at a crossover temperature T* far above long-range stripe formation establishes the onset of electronic localization which is accompanied by an enhanced Fano asymmetry of Ni-O stretch vibrations. Ultrafast excitation triggers a sub-picosecond dynamics exposing the synchronous modulation of electron-phonon coupling and charge localization. These results illuminate the role oflocalization in forming the pseudogap in nickelates, opening a path to understanding this mysterious phase in a broad class of complex oxides.

Published

2013

24. Evaporation of an anisotropic nanoplasma

Author

Bacellar Camila, Chatterley Adam S., Lackner Florian, Pemmaraju C.D., Tanyag Rico M. P., Bernando Charles, Verma Deepak, O’Connell Sean, Bucher Maximilian, Ferguson Kenneth R., Gorkhover Tais, Ryan N. Coffee, Coslovich Giacomo, Ray Dipanwita, Osipov Timur, Neumark Daniel M., Bostedt Christoph, Vilesov Andrey F., and Gessner Oliver

Subjects

Physics, QC1-999

Abstract

Intense laser induced plasma dynamics in sub-micron scale helium droplets are monitored by femtosecond time-resolved X-ray coherent diffractive imaging. Anisotropic surface softening and strongly anisotropic shrinking of the plasma core are observed.

Published

2019

25. State-resolved ultrafast charge and spin dynamics in [Co/Pd] multilayers

Author

Le Guyader, Loïc, Higley, Daniel J., Pancaldi, Matteo, Liu, Tianmin, Chen, Zhao, Chase, Tyler, Granitzka, Patrick W., Coslovich, Giacomo, Lutman, Alberto A., Dakovski, Georgi L., Schlotter, William F., Shafer, Padraic, Arenholz, Elke, Hellwig, Olav, Lalieu, Mark L.M., Koopmans, Bert, Reid, Alexander H., Bonetti, Stefano, Stöhr, Joachim, Dürr, Hermann A., Le Guyader, Loïc, Higley, Daniel J., Pancaldi, Matteo, Liu, Tianmin, Chen, Zhao, Chase, Tyler, Granitzka, Patrick W., Coslovich, Giacomo, Lutman, Alberto A., Dakovski, Georgi L., Schlotter, William F., Shafer, Padraic, Arenholz, Elke, Hellwig, Olav, Lalieu, Mark L.M., Koopmans, Bert, Reid, Alexander H., Bonetti, Stefano, Stöhr, Joachim, and Dürr, Hermann A.

Abstract

We use transient absorption spectroscopy with circularly polarized x rays to detect laser-excited hole states below the Fermi level and compare their dynamics with that of unoccupied states above the Fermi level in ferromagnetic [Co/Pd] multilayers. While below the Fermi level, an instantaneous and significantly stronger demagnetization is observed, above the Fermi level, the demagnetization is delayed by 35 ± 10 fs. This provides a direct visualization of how ultrafast demagnetization proceeds via initial spin-flip scattering of laser-excited holes to the subsequent formation of spin waves.

Published

2022

26. Ultrafast perturbation of magnetic domains by optical pumping in a ferromagnetic multilayer

Author

Zusin, Dmitriy, Iacocca, Ezio, Le Guyader, Loic, Reid, Alexander H., Schlotter, William F., Liu, Tian-Min, Higley, Daniel J., Coslovich, Giacomo, Wandel, Scott F., Tengdin, Phoebe M., Patel, Sheena K. K., Shabalin, Anatoly, Hua, Nelson, Hrkac, Stjepan B., Nembach, Hans T., Shaw, Justin M., Montoya, Sergio A., Blonsky, Adam, Gentry, Christian, Hoefer, Mark A., Murnane, Margaret M., Kapteyn, Henry C., Fullerton, Eric E., Shpyrko, Oleg, Dürr, Hermann, Silva, T. J., Zusin, Dmitriy, Iacocca, Ezio, Le Guyader, Loic, Reid, Alexander H., Schlotter, William F., Liu, Tian-Min, Higley, Daniel J., Coslovich, Giacomo, Wandel, Scott F., Tengdin, Phoebe M., Patel, Sheena K. K., Shabalin, Anatoly, Hua, Nelson, Hrkac, Stjepan B., Nembach, Hans T., Shaw, Justin M., Montoya, Sergio A., Blonsky, Adam, Gentry, Christian, Hoefer, Mark A., Murnane, Margaret M., Kapteyn, Henry C., Fullerton, Eric E., Shpyrko, Oleg, Dürr, Hermann, and Silva, T. J.

Abstract

Ultrafast optical pumping of spatially nonuniform magnetic textures is known to induce far-from-equilibrium spin transport effects. Here, we use ultrafast x-ray diffraction with unprecedented dynamic range to study the laser-induced dynamics of labyrinth domain networks in ferromagnetic CoFe/Ni multilayers. We detected azimuthally isotropic, odd order, magnetic diffraction rings up to fifth order. The amplitudes of all three diffraction rings quench to different degrees within 1.6 ps. In addition, all three of the detected diffraction rings both broaden by 15% and radially contract by 6% during the quench process. We are able to rigorously quantify a 31% ultrafast broadening of the domain walls via Fourier analysis of the order-dependent quenching of the three detected diffraction rings. The broadening of the diffraction rings is interpreted as a reduction in the domain coherence length, but the shift in the ring radius, while unambiguous in its occurrence, remains unexplained. In particular, we demonstrate that a radial shift explained by domain-wall broadening can be ruled out. With the unprecedented dynamic range of our data, our results provide convincing evidence that labyrinth domain structures are spatially perturbed at ultrafast speeds under far-from-equilibrium conditions, albeit the mechanism inducing the perturbations remains yet to be clarified.

Published

2022

27. Nematicity dynamics in the charge-density-wave phase of a cuprate superconductor

Author

Bluschke, Martin, Gupta, Naman K., Jang, Hoyoung, Husain, Ali A., Lee, Byungjune, Na, MengXing, Remedios, Brandon Dos, Park, Sang-Youn, Kim, Minseok, Jang, Dogeun, Choi, Hyeongi, Sutarto, Ronny, Reid, Alexander H., Dakovski, Georgi L., Coslovich, Giacomo, Nguyen, Quynh L., Burdet, Nicolas G., Lin, Ming-Fu, Revcolevschi, Alexandre, Park, Jae-Hoon, Geck, Jochen, Turner, Joshua J., Damascelli, Andrea, and Hawthorn, David G.

Subjects

Superconductivity (cond-mat.supr-con), Condensed Matter - Strongly Correlated Electrons, Strongly Correlated Electrons (cond-mat.str-el), Condensed Matter - Superconductivity, FOS: Physical sciences

Abstract

Understanding the interplay between charge, nematic, and structural ordering tendencies in cuprate superconductors is critical to unraveling their complex phase diagram. Using pump-probe time-resolved resonant x-ray scattering on the (0 0 1) Bragg peak at the Cu L3 and oxygen K resonances, we investigate non-equilibrium dynamics of Qa = Qb = 0 nematic order and its association with both charge density wave (CDW) order and lattice dynamics in La1.65Eu0.2Sr0.15CuO4. In contrast to the slow lattice dynamics probed at the apical oxygen K resonance, fast nematicity dynamics are observed at the Cu L3 and planar oxygen K resonances. The temperature dependence of the nematicity dynamics is correlated with the onset of CDW order. These findings unambiguously indicate that the CDW phase, typically evidenced by translational symmetry breaking, includes a significant electronic nematic component., Comment: 16 pages, 4 figures

Published

2022

28. Characterization of photoinduced normal state through charge density wave in superconducting YBa 2 Cu 3 O 6.67

Author

Jang, Hoyoung, primary, Song, Sanghoon, additional, Kihara, Takumi, additional, Liu, Yijin, additional, Lee, Sang-Jun, additional, Park, Sang-Youn, additional, Kim, Minseok, additional, Kim, Hyeong-Do, additional, Coslovich, Giacomo, additional, Nakata, Suguru, additional, Kubota, Yuya, additional, Inoue, Ichiro, additional, Tamasaku, Kenji, additional, Yabashi, Makina, additional, Lee, Heemin, additional, Song, Changyong, additional, Nojiri, Hiroyuki, additional, Keimer, Bernhard, additional, Kao, Chi-Chang, additional, and Lee, Jun-Sik, additional

Published

2022

29. State-resolved ultrafast charge and spin dynamics in [Co/Pd] multilayers

Author

Le Guyader, Loïc, primary, Higley, Daniel J., additional, Pancaldi, Matteo, additional, Liu, Tianmin, additional, Chen, Zhao, additional, Chase, Tyler, additional, Granitzka, Patrick W., additional, Coslovich, Giacomo, additional, Lutman, Alberto A., additional, Dakovski, Georgi L., additional, Schlotter, William F., additional, Shafer, Padraic, additional, Arenholz, Elke, additional, Hellwig, Olav, additional, Lalieu, Mark L. M., additional, Koopmans, Bert, additional, Reid, Alexander H., additional, Bonetti, Stefano, additional, Stöhr, Joachim, additional, and Dürr, Hermann A., additional

Published

2022

30. Spectroscopic Signature of Hydrogen Transfer Dynamics in Acetylacetone

Author

Green, Alice E., primary, List, Nanna, additional, Champenois, Elio, additional, Ware, Matthew, additional, Driver, Taran, additional, Boguslavskiy, Andrey, additional, Bucksbaum, Phil, additional, Cheng, Xinxin, additional, Coslovich, Giacomo, additional, Forbes, Ruaridh, additional, Glownia, James M., additional, Guehr, Markus, additional, Kamalov, Andrei, additional, Lever, Fabiano, additional, Li, Siqi, additional, Li, Xiang, additional, Lin, Ming-Fu, additional, Martinez, Todd J., additional, Mayer, Dennis, additional, O’Neal, Jordan, additional, Peard, Nolan, additional, Roeder, Anja, additional, Stolow, Albert, additional, Walter, Peter, additional, Wang, Anna L., additional, Yang, Jie, additional, Cryan, James, additional, and Wolf, Thomas J. A., additional

Published

2022

31. State-resolved ultrafast charge and spin dynamics in [Co/Pd] multilayers

Author

Le Guyader, Loïc, Higley, Daniel J., Pancaldi, Matteo, Liu, Tianmin, Chen, Zhao, Chase, Tyler, Granitzka, Patrick W., Coslovich, Giacomo, Lutman, Alberto A., Dakovski, Georgi L., Schlotter, William F., Shafer, Padraic, Arenholz, Elke, Hellwig, Olav, Lalieu, Mark L. M., Koopmans, Bert, Reid, Alexander H., Bonetti, Stefano, Stöhr, Joachim, Dürr, Hermann A., Physics of Nanostructures, EIRES, and Eindhoven Hendrik Casimir institute

Subjects

Condensed Matter::Materials Science, Condensed Matter - Materials Science, Astrophysics::High Energy Astrophysical Phenomena, Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Condensed Matter::Strongly Correlated Electrons, Condensed Matter Physics, Den kondenserade materiens fysik, Settore FIS/03 - Fisica della Materia

Abstract

We use transient absorption spectroscopy with circularly polarized x-rays to detect laser-excited hole states below the Fermi level and compare their dynamics with that of unoccupied states above the Fermi level in ferromagnetic [Co/Pd] multilayers. While below the Fermi level an instantaneous and significantly stronger demagnetization is observed, above the Fermi level the demagnetization is delayed by 35+/-10 fs. This provides a direct visualization of how ultrafast demagnetization proceeds via initial spin-flip scattering of laser-excited holes to the subsequent formation of spin waves., 10 pages, 4 figures. The following article has been submitted to Applied Physics Letters. After it is published, it will be found at https://publishing.aip.org/resources/librarians/products/journals/

Published

2021

32. Atom-specific activation in CO oxidation.

Author

Schreck, Simon, Diesen, Elias, LaRue, Jerry, Ogasawara, Hirohito, Marks, Kess, Nordlund, Dennis, Weston, Matthew, Beye, Martin, Cavalca, Filippo, Perakis, Fivos, Sellberg, Jonas, Eilert, André, Kim, Kyung Hwan, Coslovich, Giacomo, Coffee, Ryan, Krzywinski, Jacek, Reid, Alex, Moeller, Stefan, Lutman, Alberto, and Öström, Henrik

Subjects

CARBON dioxide, X-ray absorption, FEMTOSECOND lasers, CHEMICAL reactions, X-ray spectroscopy, COHERENCE (Physics)

Abstract

We report on atom-specific activation of CO oxidation on Ru(0001) via resonant X-ray excitation. We show that resonant 1s core-level excitation of atomically adsorbed oxygen in the co-adsorbed phase of CO and oxygen directly drives CO oxidation. We separate this direct resonant channel from indirectly driven oxidation via X-ray induced substrate heating. Based on density functional theory calculations, we identify the valence-excited state created by the Auger decay as the driving electronic state for direct CO oxidation. We utilized the fresh-slice multi-pulse mode at the Linac Coherent Light Source that provided time-overlapped and 30 fs delayed pairs of soft X-ray pulses and discuss the prospects of femtosecond X-ray pump X-ray spectroscopy probe, as well as X-ray two-pulse correlation measurements for fundamental investigations of chemical reactions via selective X-ray excitation. [ABSTRACT FROM AUTHOR]

Published

2018

33. Transient resonant Auger-Meitner spectra of photoexcited thymine

Author

Wolf, Thomas J. A., Paul, Alexander C., Folkestad, Sarai D., Myhre, Rolf H., Cryan, James P., Berrah, Nora, Bucksbaum, Phil H., Coriani, Sonia, Coslovich, Giacomo, Feifel, Raimund, Martinez, Todd J., Moeller, Stefan P., Mucke, Melanie, Obaid, Razib, Plekan, Oksana, Squibb, Richard J., Koch, Henrik, Guehr, Markus, Wolf, Thomas J. A., Paul, Alexander C., Folkestad, Sarai D., Myhre, Rolf H., Cryan, James P., Berrah, Nora, Bucksbaum, Phil H., Coriani, Sonia, Coslovich, Giacomo, Feifel, Raimund, Martinez, Todd J., Moeller, Stefan P., Mucke, Melanie, Obaid, Razib, Plekan, Oksana, Squibb, Richard J., Koch, Henrik, and Guehr, Markus

Abstract

We present the first investigation of excited state dynamics by resonant Auger-Meitner spectroscopy (also known as resonant Auger spectroscopy) using the nucleobase thymine as an example. Thymine is photoexcited in the UV and probed with X-ray photon energies at and below the oxygen K-edge. After initial photoexcitation to a pi pi* excited state, thymine is known to undergo internal conversion to an n pi* excited state with a strong resonance at the oxygen K-edge, red-shifted from the ground state pi* resonances of thymine (see our previous study Wolf, et al., Nat. Commun., 2017, 8, 29). We resolve and compare the Auger-Meitner electron spectra associated both with the excited state and ground state resonances, and distinguish participator and spectator decay contributions. Furthermore, we observe simultaneously with the decay of the n pi* state signatures the appearance of additional resonant Auger-Meitner contributions at photon energies between the n pi* state and the ground state resonances. We assign these contributions to population transfer from the n pi* state to a pi pi* triplet state via intersystem crossing on the picosecond timescale based on simulations of the X-ray absorption spectra in the vibrationally hot triplet state. Moreover, we identify signatures from the initially excited pi pi* singlet state which we have not observed in our previous study.

Published

2021

34. Orbital dynamics during an ultrafast insulator to metal transition

Author

Parchenko, Sergii, Paris, Eugenio, McNally, Daniel, Abreu, Elsa, Dantz, Markus, Bothschafter, Elisabeth M., Reid, Alexander H., Schlotter, William F., Lin, Ming-Fu, Wandel, Scott F., Coslovich, Giacomo, Zohar, Sioan, Dakovski, Georgi L., Turner, J. J., Moeller, S., Tseng, Yi, Radovic, Milan, Saathe, Conny, Agåker, Marcus, Nordgren, Joseph, Johnson, Steven L., Schmitt, Thorsten, Staub, Urs, Parchenko, Sergii, Paris, Eugenio, McNally, Daniel, Abreu, Elsa, Dantz, Markus, Bothschafter, Elisabeth M., Reid, Alexander H., Schlotter, William F., Lin, Ming-Fu, Wandel, Scott F., Coslovich, Giacomo, Zohar, Sioan, Dakovski, Georgi L., Turner, J. J., Moeller, S., Tseng, Yi, Radovic, Milan, Saathe, Conny, Agåker, Marcus, Nordgren, Joseph, Johnson, Steven L., Schmitt, Thorsten, and Staub, Urs

Abstract

We present ultrafast resonant inelastic x-ray scattering (RIXS) experiments performed at the vanadium L edge to track changes in the electronic structure of V2O3, a classical Mott-Hubbard material. The probed orbital excitations within the d shell of the V ion show a sub-ps time response, which evolves at later times to a state that appears electronically indistinguishable from the high-temperature metallic state. For low excitation fluences, a transient recovery or delay is observed, which could be related to a transient dimerization of the V-V bonds. Our results demonstrate the great potential for RIXS spectroscopy to study the ultrafast orbital dynamics in strongly correlated materials.

Published

2020

35. Light-enhanced charge density wave coherence in a high-temperature superconductor

Author

Coslovich, Giacomo, primary

Published

2021

36. Arrival Time Monitor for Sub-10 fs Soft X-ray and 800 nm Optical Pulses

Author

Muhammad, Isa Shams, primary, Frimpong, Benson, additional, Daafour, Joseph, additional, Xu, Xiaoqing, additional, Walter, Peter, additional, Wolf, Thomas J. A., additional, Cryan, James P., additional, Glownia, James M., additional, Robinson, Joseph S., additional, Droste, Stefan, additional, and Coslovich, Giacomo, additional

Published

2021

37. Transient resonant Auger–Meitner spectra of photoexcited thymine

Author

Wolf, Thomas J. A., primary, Paul, Alexander C., additional, Folkestad, Sarai D., additional, Myhre, Rolf H., additional, Cryan, James P., additional, Berrah, Nora, additional, Bucksbaum, Phil H., additional, Coriani, Sonia, additional, Coslovich, Giacomo, additional, Feifel, Raimund, additional, Martinez, Todd J., additional, Moeller, Stefan P., additional, Mucke, Melanie, additional, Obaid, Razib, additional, Plekan, Oksana, additional, Squibb, Richard J., additional, Koch, Henrik, additional, and Gühr, Markus, additional

Published

2021

38. High-sensitivity x-ray/optical cross-correlator for next generation free-electron lasers

Author

Droste, Stefan, primary, Zohar, Sioan, additional, Shen, Lingjia, additional, White, Vaughn E., additional, Diaz-Jacobo, Elizabeth, additional, Coffee, Ryan N., additional, Reid, Alexander H., additional, Tavella, Franz, additional, Minitti, Michael P., additional, Turner, Joshua J., additional, Robinson, Joseph S., additional, Fry, Alan R., additional, and Coslovich, Giacomo, additional

Published

2020

39. Orbital dynamics during an ultrafast insulator to metal transition

Author

Parchenko, Sergii, primary, Paris, Eugenio, additional, McNally, Daniel, additional, Abreu, Elsa, additional, Dantz, Markus, additional, Bothschafter, Elisabeth M., additional, Reid, Alexander H., additional, Schlotter, William F., additional, Lin, Ming-Fu, additional, Wandel, Scott F., additional, Coslovich, Giacomo, additional, Zohar, Sioan, additional, Dakovski, Georgi L., additional, Turner, J. J., additional, Moeller, S., additional, Tseng, Yi, additional, Radovic, Milan, additional, Saathe, Conny, additional, Agaaker, Marcus, additional, Nordgren, Joseph E., additional, Johnson, Steven L., additional, Schmitt, Thorsten, additional, and Staub, Urs, additional

Published

2020

40. Tunable isolated attosecond X-ray pulses with gigawatt peak power from a free-electron laser

Author

Duris, Joseph, primary, Li, Siqi, additional, Driver, Taran, additional, Champenois, Elio G., additional, MacArthur, James P., additional, Lutman, Alberto A., additional, Zhang, Zhen, additional, Rosenberger, Philipp, additional, Aldrich, Jeff W., additional, Coffee, Ryan, additional, Coslovich, Giacomo, additional, Decker, Franz-Josef, additional, Glownia, James M., additional, Hartmann, Gregor, additional, Helml, Wolfram, additional, Kamalov, Andrei, additional, Knurr, Jonas, additional, Krzywinski, Jacek, additional, Lin, Ming-Fu, additional, Marangos, Jon P., additional, Nantel, Megan, additional, Natan, Adi, additional, O’Neal, Jordan T., additional, Shivaram, Niranjan, additional, Walter, Peter, additional, Wang, Anna Li, additional, Welch, James J., additional, Wolf, Thomas J. A., additional, Xu, Joseph Z., additional, Kling, Matthias F., additional, Bucksbaum, Philip H., additional, Zholents, Alexander, additional, Huang, Zhirong, additional, Cryan, James P., additional, and Marinelli, Agostino, additional

Published

2019

41. Evidence for photoinduced sliding of the charge-order condensate in La1.875Ba0.125CuO4

Author

Mitrano, Matteo, primary, Lee, Sangjun, additional, Husain, Ali A., additional, Zhu, Minhui, additional, Munoz, Gilberto de la Peña, additional, Sun, Stella X.-L., additional, Joe, Young Il, additional, Reid, Alexander H., additional, Wandel, Scott F., additional, Coslovich, Giacomo, additional, Schlotter, William, additional, van Driel, Tim, additional, Schneeloch, John, additional, Gu, G. D., additional, Goldenfeld, Nigel, additional, and Abbamonte, Peter, additional

Published

2019

42. Ultrafast time-resolved x-ray scattering reveals diffusive charge order dynamics in La2– xBaxCuO 4

Author

Mitrano, Matteo, primary, Lee, Sangjun, additional, Husain, Ali A., additional, Delacretaz, Luca, additional, Zhu, Minhui, additional, de la Peña Munoz, Gilberto, additional, Sun, Stella X.-L., additional, Joe, Young Il, additional, Reid, Alexander H., additional, Wandel, Scott F., additional, Coslovich, Giacomo, additional, Schlotter, William, additional, van Driel, Tim, additional, Schneeloch, John, additional, Gu, G. D., additional, Hartnoll, Sean, additional, Goldenfeld, Nigel, additional, and Abbamonte, Peter, additional

Published

2019

43. High-sensitivity X-ray Optical Cross-Correlator for Next Generation Free-Electron Lasers

Author

Droste, Stefan, primary, Shen, Lingjia, additional, White, Vaughn E., additional, Diaz-Jacobo, Elizabeth, additional, Coffee, Ryan, additional, Zohar, Sioan, additional, Reid, Alexander H., additional, Tavella, Franz, additional, Minitti, Michael P., additional, Turner, Joshua J., additional, Gumerlock, Karl L., additional, Fry, Alan R., additional, and Coslovich, Giacomo, additional

Published

2019

44. Ultrafast multi-terahertz probes of symmetry breaking in a stripe-phase correlated oxide

Author

Kaindl, Robert A., primary, Coslovich, Giacomo, primary, Huber, Bernhard, primary, Behl, Sascha, primary, Kemper, Alexander F., primary, Sasagawa, Takao, primary, Bechtel, Hans A., primary, and Martin, Michael C., primary

Published

2018

45. Femtosecond X-ray magnetic circular dichroism absorption spectroscopy at an X-ray free electron laser

Author

Higley, Daniel J., primary, Hirsch, Konstantin, additional, Dakovski, Georgi L., additional, Jal, Emmanuelle, additional, Yuan, Edwin, additional, Liu, Tianmin, additional, Lutman, Alberto A., additional, MacArthur, James P., additional, Arenholz, Elke, additional, Chen, Zhao, additional, Coslovich, Giacomo, additional, Denes, Peter, additional, Granitzka, Patrick W., additional, Hart, Philip, additional, Hoffmann, Matthias C., additional, Joseph, John, additional, Le Guyader, Loïc, additional, Mitra, Ankush, additional, Moeller, Stefan, additional, Ohldag, Hendrik, additional, Seaberg, Matthew, additional, Shafer, Padraic, additional, Stöhr, Joachim, additional, Tsukamoto, Arata, additional, Nuhn, Heinz-Dieter, additional, Reid, Alex H., additional, Dürr, Hermann A., additional, and Schlotter, William F., additional

Published

2016

46. Competition between the Pseudogap and Superconducting States of Y-Bi2212 Single Crystals Revealed by Ultrafast Broadband Optical Reflectivity

Author

Coslovich, Giacomo, Giannetti, Claudio, Cilento, Federico, Dal Conte, Stefano, Abebaw, Tadesse, Bossini, Davide, Ferrini, Gabriele, Eisaki, Hiroshi, Greven, Martin, Damascelli, Andrea, and Parmigiani, Fulvio

Subjects

time-resolved optical spectroscopy, copper oxides, high-temperature superconductivity, pump probe, Settore FIS/03 - FISICA DELLA MATERIA

Published

2013

47. Disclosing the ultrafast dynamics of competing phases in high - temperature superconductors by time - resolved optical spectroscopy

Author

Coslovich, Giacomo and Parmigiani, Fulvio

Subjects

ultrafast, phase transition, superconductivity, competing phases, SCUOLA DI DOTTORATO DI RICERCA IN FISICA, FIS/03 FISICA DELLA MATERIA, time-resolved, optical spectroscopy

Abstract

2009/2010 Understanding the interplay between the phases present in a high-temperature superconductor (superconducting, pseudogap, strange metal and Fermi-liquid-like) is the key-concept for shining light on the nature of the superconductivity mechanisms in copper-oxide based superconductors. Here, I set the bases for addressing this physics by developing an approach based on ultrafast time-resolved optical spectroscopy in the infrared and visible spectral regions. The experiments performed disclose the real-time evolution of the optical properties while the system is suddenly brought out-of-equilibrium by an ultrashort laser pulse. The data obtained show how a competing admixture of two or more phases in a high-temperature superconductor can be created and observed evolving. Finally by using new models for interpreting the experimental results the ultrafast dynamics of the competing phases start to be revealed. XXIII Ciclo 1982

Published

2011

48. Evidence of a photoinduced non-thermal superconducting-to-normal-state phase transition in overdoped Y-Bi2212

Author

Coslovich, Giacomo, Giannetti, Claudio, Cilento, Federico, Dal Conte, Stefano, Ferrini, Gabriele, Galinetto, Pietro, Greven, Martin, Eisaki, Hiroshi, Raichle, Markus, Liang, Ruixing, Damascelli, Andrea, and Parmigiani, Fulvio

Subjects

Condensed Matter::Superconductivity, dynamics, ultrafast lasers, superconductors, Settore FIS/03 - FISICA DELLA MATERIA, Settore FIS/01 - FISICA SPERIMENTALE

Published

2011

49. Probing Short- and Long-range Stripe Correlations in a Nickelate via Multi-THz Spectroscopy

Author

Coslovich, Giacomo, primary, Lee, Wei-Sheng, additional, Bechtel, Hans, additional, Martin, Michael M., additional, Sasagawa, Takao, additional, Shen, Zhi-Xun, additional, and Kaindl, Robert A., additional

Published

2015

50. Ultrabroadband THz Conductivity of Non-equilibrium Dirac Fermions in Graphene

Author

Coslovich, Giacomo, primary, Smith, Ryan P., additional, Shi, Sufei, additional, Buss, Jan H., additional, Robinson, Jeremy T., additional, Wang, Feng, additional, and Kaindl, Robert A., additional

Published

2015