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1. Modulation of the Meisenheimer complex metabolism of nitro-benzothiazinones by targeted C-6 substitution

Author

François Keiff, Freddy A. Bernal, Melanie Joch, Thibault J. W. Jacques dit Lapierre, Yan Li, Phil Liebing, Hans-Martin Dahse, Ivan Vilotijevic, and Florian Kloss

Subjects
Chemistry, QD1-999
Abstract

Abstract Tuberculosis, caused by Mycobacterium tuberculosis, remains a major public health concern, demanding new antibiotics with innovative therapeutic principles due to the emergence of resistant strains. Benzothiazinones (BTZs) have been developed to address this problem. However, an unprecedented in vivo biotransformation of BTZs to hydride-Meisenheimer complexes has recently been discovered. Herein, we present a study of the influence of electron-withdrawing groups on the propensity of HMC formation in whole cells for a series of C-6-substituted BTZs obtained through reductive fluorocarbonylation as a late-stage functionalization key step. Gibbs free energy of reaction and Mulliken charges and Fukui indices on C-5 at quantum mechanics level were found as good indicators of in vitro HMC formation propensity. These results provide a first blueprint for the evaluation of HMC formation in drug development and set the stage for rational pharmacokinetic optimization of BTZs and similar drug candidates.

Published
2024
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2. Momentum-dependent intraband high harmonic generation in a photodoped indirect semiconductor

Author

Pawan Suthar, František Trojánek, Petr Malý, Thibault J.-Y. Derrien, and Martin Kozák

Subjects
Astrophysics, QB460-466, Physics, QC1-999
Abstract

Abstract Nonlinear optical response of solid-state materials exposed to strong non-resonant light fields leads to the generation of harmonic frequencies as a consequence of interband polarization and coherent intraband dynamics of the electrons. The efficient production of a macroscopic wave requires the preservation of the mutual phase between the driving wave and the individual microscopic sources of radiation. Here, we experimentally and theoretically show that the yield of high harmonic generation in a photodoped silicon crystal is enhanced by the nonlinear intraband current whose amplitude depends not only on the volume density of the photogenerated carriers but also on their momentum distributions within the bands. The strongest enhancement is reached when the carrier system is relaxed to the band minima before interacting with the strong nonresonant wave, which drives the high harmonic generation. These results extend the possibilities of high harmonic spectroscopy towards the investigation of ultrafast carrier relaxation in condensed matter.

Published
2024
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3. Role of Van Hove singularities and effective mass anisotropy in polarization-resolved high harmonic spectroscopy of silicon

Author

Pawan Suthar, František Trojánek, Petr Malý, Thibault J.-Y. Derrien, and Martin Kozák

Subjects
Astrophysics, QB460-466, Physics, QC1-999
Abstract

High harmonic generation in solids has been intensively studied for compact extreme ultraviolet light sources and for understanding of the inner workings of solids. In this study, the authors conducted polarization-resolved nonlinear spectroscopy of silicon with numerical calculations and uncovered the significant influence of van Hove singularities on the processes of high harmonic generation.

Published
2022
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4. Highly Regular LIPSS on Thin Molybdenum Films: Optimization and Generic Criteria

Author

Juraj Sládek, Kryštof Hlinomaz, Inam Mirza, Yoann Levy, Thibault J.-Y. Derrien, Martin Cimrman, Siva S. Nagisetty, Jan Čermák, The Ha Stuchlíková, Jiří Stuchlík, and Nadezhda M. Bulgakova

Subjects
laser-induced periodic surface structures, highly regular LIPSS, thin film, molybdenum, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

A systematic experimental study was performed to determine laser irradiation conditions for the large-area fabrication of highly regular laser-induced periodic surface structures (HR-LIPSS) on a 220 nm thick Mo film deposited on fused silica. The LIPSS were fabricated by scanning a linearly polarized, spatially Gaussian laser beam at 1030 nm wavelength and 1.4 ps pulse duration over the sample surface at 1 kHz repetition rate. Scanning electron microscope images of the produced structures were analyzed using the criterion of the dispersion of the LIPSS orientation angle (DLOA). Favorable conditions, in terms of laser fluence and beam scanning overlaps, were identified for achieving DLOA values ∘. To gain insight into the material behavior under these irradiation conditions, a theoretical analysis of the film heating was performed, and surface plasmon polariton excitation is discussed. A possible effect of the film dewetting from the dielectric substrate is deliberated.

Published
2023
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5. Genome editing in primary cells and in vivo using viral-derived Nanoblades loaded with Cas9-sgRNA ribonucleoproteins

Author

Philippe E. Mangeot, Valérie Risson, Floriane Fusil, Aline Marnef, Emilie Laurent, Juliana Blin, Virginie Mournetas, Emmanuelle Massouridès, Thibault J. M. Sohier, Antoine Corbin, Fabien Aubé, Marie Teixeira, Christian Pinset, Laurent Schaeffer, Gaëlle Legube, François-Loïc Cosset, Els Verhoeyen, Théophile Ohlmann, and Emiliano P. Ricci

Subjects
Science
Abstract

A current challenge in genome editing is delivering Cas9 and sgRNA into target cells. Here the authors engineer a delivery system based on murine leukemia virus-like particles loaded with Cas9-sgRNA ribonucleoproteins to induce efficient genome editing in both cell culture and in vivo in mouse.

Published
2019
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6. High-speed manufacturing of highly regular femtosecond laser-induced periodic surface structures: physical origin of regularity

Author

Iaroslav Gnilitskyi, Thibault J.-Y. Derrien, Yoann Levy, Nadezhda M. Bulgakova, Tomáš Mocek, and Leonardo Orazi

Subjects
Medicine, Science
Abstract

Abstract Highly regular laser-induced periodic surface structures (HR-LIPSS) have been fabricated on surfaces of Mo, steel alloy and Ti at a record processing speed on large areas and with a record regularity in the obtained sub-wavelength structures. The physical mechanisms governing LIPSS regularity are identified and linked with the decay length (i.e. the mean free path) of the excited surface electromagnetic waves (SEWs). The dispersion of the LIPSS orientation angle well correlates with the SEWs decay length: the shorter this length, the more regular are the LIPSS. A material dependent criterion for obtaining HR-LIPSS is proposed for a large variety of metallic materials. It has been found that decreasing the spot size close to the SEW decay length is a key for covering several cm2 of material surface by HR-LIPSS in a few seconds. Theoretical predictions suggest that reducing the laser wavelength can provide the possibility of HR-LIPSS production on principally any metal. This new achievement in the unprecedented level of control over the laser-induced periodic structure formation makes this laser-writing technology to be flexible, robust and, hence, highly competitive for advanced industrial applications based on surface nanostructuring.

Published
2017
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7. Attosecond control of solid-state high harmonic generation using {\omega}-3{\omega} fields

Author

Gindl, Adam, Suthar, Pawan, Trojánek, František, Malý, Petr, Derrien, Thibault J. -Y., and Kozák, Martin

Subjects
Physics - Optics
Abstract

Controlling the electron dynamics in matter by individual oscillations of light fields has recently led to the development of attosecond metrology. One of the phenomena resulting from the nonlinear response of materials in the strong-field interaction regime is coherent emission of high energy photons. High harmonic spectra carry the fingerprints of sub-cycle electronic motion and the energy structure of the studied system. Here we show that tailoring the waveform of the driving light by using a coherent combination with its third harmonic frequency allows to control the electron tunneling time within each half-cycle of the fundamental wave with attosecond precision. We introduce an experimental scheme in which we simultaneously monitor the modulation of amplitude and emission delays of high harmonic radiation and the excited electron population generated in crystalline silicon as a function of the relative phase between the {\omega}-3{\omega} fields. The results reveal unambiguously the connection between the dynamics of electron tunneling and high harmonic generation processes in solids.

Published
2023

10. Femtosecond Laser-Induced Periodic Surface Structures on Fused Silica: The Impact of the Initial Substrate Temperature

Author

Stephan Gräf, Clemens Kunz, Sebastian Engel, Thibault J. -Y. Derrien, and Frank A. Müller

Subjects
fs-laser, laser-induced periodic surface structures (LIPSS), fused silica, substrate temperature, supra-wavelength LIPSS, CO2 laser, hydrodynamic instabilities, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

The formation and properties of laser-induced periodic surface structures (LIPSS) were investigated upon fs-laser irradiation of fused silica at different initial substrate temperatures, TS. For substrate heating between room temperature, TRT, and TS = 1200 °C, a continuous wave CO2 laser was used as the radiation source. The surface structures generated in the air environment at normal incidence with five successive fs-laser pulses (pulse duration, τ = 300 fs, laser wavelength, λ = 1025 nm, repetition frequency, frep = 1 kHz) were characterized by using optical microscopy, scanning electron microscopy, and 2D-Fourier transform analysis. The threshold fluence of fused silica was systematically investigated as a function of TS. It was shown that the threshold fluence for the formation of low-spatial frequency LIPSS (LSFL) decreases with increasing TS. The results reveal that the initial spatial period observed at TRT is notably increased by increasing TS, finally leading to the formation of supra-wavelength LIPSS. The findings are discussed in the framework of the electromagnetic interference theory, supplemented with an analysis based on thermo-convective instability occurring in the laser-induced molten layer. Our findings provide qualitative insights into the formation mechanisms of LIPSS, which allow improvements of the control of nanostructure formation to be made for corresponding applications of dielectric materials in the future.

Published
2018
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11. Three-axis torque investigation of interfacial exchange coupling in a NiFe/CoO bilayer micromagnetic disk

Author

Dunsmore, M. G., Thibault, J. A., Fast, K. R., Sauer, V. T. K., Losby, J. E., Diao, Z., Belov, M., and Freeman, M. R.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Micrometer diameter bilayers of NiFe (permalloy, Py) and cobalt oxide (CoO) deposited on nanomechanical resonators were used to investigate exchange bias effects. The mechanical compliances of two resonator axes were enhanced by severing one torsion arm, resulting in a unique three-axis resonator that responds resonantly to torques generated by a three-axis RF field. Our technique permits simultaneous measurement of three orthogonal torque components. Measurements of the anisotropies associated with interfacial exchange coupling effects have been made. At cryogenic temperatures, observations of shifted linear hysteresis loops confirmed the presence of exchange bias from the Py/CoO interface. An in-plane rotating DC bias field was used to probe in-plane anisotropies through the out-of-plane torque. Training effects in the rotational hysteresis data were observed and showed that features due to interfacial coupling did not diminish irrespective of substantial training of the unidirectional anisotropy. The data from the rotational hysteresis loops were fit with parameters from a macrospin solution to the Landau-Lifshitz-Gilbert equation. Each parameter of the exchange bias model accounts for specific features of the rotational loop., Comment: Manuscript and Supplementary Materials, 28 pages, 8 figures, conference proceedings from Joint MMM-INTERMAG, 2022

Published
2022
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12. Photoionization and transient Wannier-Stark ladder in silicon: First principle simulations versus Keldysh theory

Author

Derrien, Thibault J. -Y., Tancogne-Dejean, Nicolas, Zhukov, Vladimir P., Appel, Heiko, Rubio, Angel, and Bulgakova, Nadezhda M.

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

Nonlinear photoionization of dielectrics and semiconductors is widely treated in the frames of the Keldysh theory whose validity is limited to small photon energies compared to the band gap and relatively low laser intensities. The time-dependent density functional theory (TDDFT) simulations, which are free of these limitations, enable to gain insight into non-equilibrium dynamics of the electronic structure. Here we apply the TDDFT to investigate photoionization of silicon crystal by ultrashort laser pulses in a wide range of laser wavelengths and intensities and compare the results with predictions of the Keldysh theory. Photoionization rates derived from the simulations considerably exceed the data obtained with the Keldysh theory within the validity range of the latter. Possible reasons of the discrepancy are discussed and we provide fundamental data on the photoionization rates beyond the limits of the Keldysh theory. By investigating the features of the Stark shift as a function of photon energy and laser field strength, a manifestation of the transient Wannier-Stark ladder states have been revealed which become blurred with increasing laser field strength. Finally, it is shown that the TDDFT simulations can potentially provide reliable data on the electron damping time that is of high importance for large-scale modeling., Comment: Main document: 8 pages, 4 figures. Suppl. Mat.: 10 pages, 5 figures, 1 table

Published
2021
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13. Insights into Laser-Matter Interaction from Inside: Wealth of Processes, Multiplicity of Mechanisms and Possible Roadmaps for Energy Localization

Author

Derrien, Thibault J. -Y., Levy, Yoann, Bulgakova, Nadezhda M., Lotsch, H.K.V., Founding Editor, Rhodes, William T., Editor-in-Chief, Adibi, Ali, Series Editor, Asakura, Toshimitsu, Series Editor, Hänsch, Theodor W., Series Editor, Krausz, Ferenc, Series Editor, Masters, Barry R., Series Editor, Midorikawa, Katsumi, Series Editor, Venghaus, Herbert, Series Editor, Weber, Horst, Series Editor, Weinfurter, Harald, Series Editor, Kobayashi, Kazuya, Series Editor, Markel, Vadim, Series Editor, Stoian, Razvan, editor, and Bonse, Jörn, editor

Published
2023
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14. Simultaneous three-axis torque measurements of micromagnetism

Author

Fast, K. R., Thibault, J. A., Sauer, V. T. K., Dunsmore, M. G., Kav, A., Losby, J. E., Diao, Z., Luber, E. J., Belov, M., and Freeman, M. R.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Measurements of magnetic torque are most commonly preformed about a single axis or component of torque. Such measurements are very useful for hysteresis measurements of thin film structures in particular, where high shape anisotropy yields a near-proportionality of in-plane magnetic moment and the magnetic torque along the perpendicular in-plane axis. A technique to measure the full magnetic torque vector (three orthogonal torque components) on micro- and nano-scale magnetic materials is introduced. The method is demonstrated using a modified, single-paddle silicon-on-insulator resonant torque sensor. The mechanical compliances to all three orthogonal torque components are maximized by clamping the sensor at a single point. Mechanically-resonant AC torques are driven by an RF field containing a frequency component for each fundamental torsional mode of the device, and the resulting displacements read out through optical position-sensitive detection. The measurements are compared with micromagnetic simulations of the mechanical torque to augment the interpretation of the signals. As an application example, simultaneous observations of hysteresis in the net magnetization along with the field-dependent in-plane anisotropy is highly beneficial for studies of exchange bias., Comment: 11 manuscript pages with 3 figures, and 4 supplementary pages with 2 figures. This article has been submitted to AIP Advances. After it is published, it will be found at https://publishing.aip.org/resources/librarians/products/journals/

Published
2020
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16. LIPSS on thin metallic films: New insights from multiplicity of laser-excited electromagnetic modes and efficiency of metal oxidation

Author

Dostovalov, Alexander V., Derrien, Thibault J. -Y., Lizunov, Sergei A., Preucil, Filip, Okotrub, Konstantin A., Mocek, Tomas, Korolkov, Victor P., Babin, Sergei A., and Bulgakova, Nadezhda M.

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Thin Cr films 28-nm thick deposited on glass substrates were processed by scanning low-intensity femtosecond laser pulses with energy well below single-pulse damage threshold. Two types of laser-induced periodic surface structures (LIPSS) were produced, depending on the scanning velocity, (1) parallel to laser light polarization with periodicity somewhat smaller than laser wavelength and (2) perpendicular to polarization with spatial period much smaller than wavelength. All structures are formed as protrusions above the initial film surface and exhibit a high degree of oxidation. To explain formation of the LIPSS and their conversion from one to another type, a rigorous numerical approach for modeling surface electromagnetic waves in thin-film geometry has been developed, which takes into account the change of optical properties of material due to laser-induced oxidation and porosity. The approach addresses the multiplicity of electromagnetic modes allowed for thin films. It has been found that the low spatial frequency LIPSS parallel to laser polarization, which are formed at low scanning velocities, are well described by the Sipe theory for surfaces of low roughness. The SEW mode responsible for high spatial frequency LIPSS formation at high scanning velocities has been identified. The mechanisms of optical feedback and transformation between types of LIPSS with scanning velocity have been proposed.

Published
2019
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17. A class II MHC-targeted vaccine elicits immunity against SARS-CoV-2 and its variants

Author

Pishesha, Novalia, Harmand, Thibault J., Rothlauf, Paul W., Praest, Patrique, Alexander, Ryan K., van den Doel, Renate, Liebeskind, Mariel J., Vakaki, Maria A., McCaul, Nicholas, Wijne, Charlotte, Verhaar, Elisha, Pinney, William, Heston, Hailey, Bloyet, Louis-Marie, Pontelli, Marjorie Cornejo, Ilagan, Ma. Xenia G., Lebbink, Robert Jan, Buchser, William J., Wiertz, Emmanuel J. H. J., Whelan, Sean P. J., and Ploegh, Hidde L.

Published
2021

18. Laning and Clustering Transitions in Driven Binary Active Matter Systems

Author

Reichhardt, C., Thibault, J., Papanikolaou, S., and Reichhardt, C. J. O.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

It is well known that a binary system of non-active disks that experience driving in opposite directions exhibits jammed, phase separated, disordered, and laning states. In active matter systems, such as a crowd of pedestrians, driving in opposite directions is common and relevant, especially in conditions which are characterized by high pedestrian density and emergency. In such cases, the transition from laning to disordered states may be associated with the onset of a panic state. We simulate a laning system containing active disks that obey run-and-tumble dynamics, and we measure the drift mobility and structure as a function of run length, disk density, and drift force. The activity of each disk can be quantified based on the correlation timescale of the velocity vector. We find that in some cases, increasing the activity can increase the system mobility by breaking up jammed configurations; however, an activity level that is too high can reduce the mobility by increasing the probability of disk-disk collisions. In the laning state, the increase of activity induces a sharp transition to a disordered strongly fluctuating state with reduced mobility. We identify a novel drive-induced clustered laning state that remains stable even at densities below the activity-induced clustering transition of the undriven system., Comment: 11 pages, 18 postscript figures

Published
2018
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21. Brittle to Quasi-Brittle Transition and Crack Initiation Precursors in Disordered Crystals

Author

Papanikolaou, S., Thibault, J., Woodward, C., Shanthraj, P., and Roters, F.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Statistical Mechanics
Abstract

Crack initiation emerges due to a combination of elasticity, plasticity, and disorder, and it is heavily dependent on the material's microstructural details. In this paper, we investigate brittle metals with coarse-grained, microstructural disorder that could originate in a material's manufacturing process, such as alloying. As an investigational tool, we consider crack initiation from a surface, ellipsoidal notch: As the radius of curvature at the notch increases, there is a dynamic transition from notch-induced crack initiation to bulk-disorder crack nucleation. We perform extensive and realistic simulations using a phase-field approach coupled to crystal plasticity. Furthermore, the microstructural disorder and notch width are varied in order to study the transition. We identify this transition for various disorder strengths in terms of the damage evolution. Above the transition, we identify detectable precursors to crack initiation that we quantify in terms of the expected stress drops during mode I fracture loading. We discuss ways to observe and analyze this brittle to quasi-brittle transition in experiments., Comment: 21 pages, 16 figures

Published
2017

22. Wavelength Dependence of Picosecond Laser-Induced Periodic Surface Structures on Copper

Author

Maragkaki, Stella, Derrien, Thibault J. -Y., Levy, Yoann, Bulgakova, Nadezhda M., Ostendorf, Andreas, and Gurevich, Evgeny L.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

The physical mechanisms of the laser-induced periodic surface structures (LIPSS) formation are studied in this paper for single-pulse irradiation regimes. The change in the LIPSS period with wavelength of incident laser radiation is investigated experimentally, using a picosecond laser system, which provides 7-ps pulses in near-IR, visible, and UV spectral ranges. The experimental results are compared with predictions made under the assumption that the surface-scattered waves are involved in the LIPSS formation. Considerable disagreement suggests that hydrodynamic mechanisms can be responsible for the observed pattern periodicity.

Published
2017
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23. Experimental evidence for field induced emergent clock anisotropies in the XY pyrochlore Er$_2$Ti$_2$O$_7$

Author

Gaudet, J., Hallas, A. M., Thibault, J., Butch, N. P., Dabkowska, H. A., and Gaulin, B. D.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The XY pyrochlore antiferromagnet Er$_2$Ti$_2$O$_7$ exhibits a rare case of $Z_6$ discrete symmetry breaking in its $\psi_2$ magnetic ground state. Despite being well-studied theoretically, systems with high discrete symmetry breakings are uncommon in nature and, thus, Er$_2$Ti$_2$O$_7$ provides an experimental playground for the study of broken $Z_n$ symmetry, for $n>2$. A recent theoretical work examined the effect of a magnetic field on a pyrochlore lattice with broken $Z_6$ symmetry and applied it to Er$_2$Ti$_2$O$_7$. This study predicted multiple domain transitions depending on the crystallographic orientation of the magnetic field, inducing rich and controllable magnetothermodynamic behavior. In this work, we present neutron scattering measurements on Er$_2$Ti$_2$O$_7$ with a magnetic field applied along the [001] and [111] directions, and provide the first experimental observation of these exotic domain transitions. In a [001] field, we observe a $\psi_2$ to $\psi_3$ transition at a critical field of 0.18$\pm$0.05T. We are thus able to extend the concept of the spin-flop transition, which has long been observed in Ising systems, to higher discrete $Z_n$ symmetries. In a [111] field, we observe a series of domain-based phase transitions for fields of 0.15$\pm$0.03T and 0.40$\pm$0.03T. We show that these field-induced transitions are consistent with the emergence of two-fold, three-fold and possibly six-fold Zeeman terms. Considering all the possible $\psi_2$ and $\psi_3$ domains, these Zeeman terms can be mapped onto an analog clock - exemplifying a literal clock anisotropy. Lastly, our quantitative analysis of the [001] domain transition in Er$_2$Ti$_2$O$_7$ is consistent with order-by-disorder as the dominant ground state selection mechanism., Comment: 10 pages, 7 figures, Accepted for publication as regular article in Phys. Rev. B

Published
2017
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24. Properties of Surface Plasmon Polaritons on lossy materials: Lifetimes, periods and excitation conditions

Author

Derrien, Thibault J. -Y., Krüger, Jörg, and Bonse, Jörn

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

The possibility to excite Surface Plasmon Polaritons (SPPs) at the interface between two media depends on the optical properties of both media and geometrical aspects. Specific conditions allowing the coupling of light with a plasmon-active interface must be satisfied. Plasmonic effects are well described in noble metals where the imaginary part of the dielectric permittivity is often neglected ("perfect medium approximation"). However, some systems exist for which such approximation cannot be applied, hence requiring a refinement of the common SPP theory. In this context, several properties of SPPs such as excitation conditions, period of the electromagnetic field modulation and SPP lifetime then may strongly deviate from that of the perfect medium approximation. In this paper, calculations taking into account the imaginary part of the dielectric permittivities are presented. The model identifies analytical terms which should not be neglected in the mathematical description of SPPs on lossy materials. These calculations are applied to numerous material combinations resulting in a prediction of the corresponding SPP features. A list of plasmon-active interfaces is provided along with a quantification of the above mentioned SPP properties in the regime where the perfect medium approximation is not applicable., Comment: 9 pages, 7 figures, regular paper

Published
2016
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25. Rippled area formed by surface plasmon polaritons upon femtosecond laser double-pulse irradiation of silicon: the role of carrier generation and relaxation processes

Author

Derrien, Thibault J. -Y., Krüger, Jörg, Itina, Tatiana E., Höhm, Sandra, Rosenfeld, Arkadi, and Bonse, Jörn

Subjects
Condensed Matter - Materials Science, Physics - Optics, Physics - Plasma Physics
Abstract

The formation of laser-induced periodic surface structures (LIPSS, ripples) upon irradiation of silicon with multiple irradiation sequences consisting of femtosecond laser pulse pairs (pulse duration 150 fs, central wavelength 800 nm) is studied numerically using a rate equation system along with a two-temperature model accounting for one- and two-photon absorption and subsequent carrier diffusion and Auger recombination processes. The temporal delay between the individual equal-energy fs-laser pulses was varied between $0$ and $\sim 4$ ps for quantification of the transient carrier densities in the conduction band of the laser-excited silicon. The results of the numerical analysis reveal the importance of carrier generation and relaxation processes in fs-LIPSS formation on silicon and quantitatively explain the two time constants of the delay dependent decrease of the Low-Spatial-Frequency LIPSS (LSFL) area observed experimentally. The role of carrier generation, diffusion and recombination are quantified individually., Comment: 5 pages, 5 figures, Conference On Laser Ablation (COLA) 2013. The final publication is available at http://link.springer.com. Accepted for publication in Applied Physics A

Published
2013
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27. Possible surface plasmon polariton excitation under femtosecond laser irradiation of silicon

Author

Derrien, Thibault J. -Y., Itina, Tatiana E., Torres, Rémi, Sarnet, Thierry, and Sentis, Marc

Subjects
Condensed Matter - Materials Science, Physics - Optics, Physics - Plasma Physics
Abstract

The mechanisms of ripple formation on silicon surface by femtosecond laser pulses are investigated. We demonstrate the transient evolution of the density of the excited free-carriers. As a result, the experimental conditions required for the excitation of surface plasmon polaritons are revealed. The periods of the resulting structures are then investigated as a function of laser parameters, such as the angle of incidence, laser fluence, and polarization. The obtained dependencies provide a way of better control over the properties of the periodic structures induced by femtosecond laser on the surface of a semiconductor material., Comment: 11 pages, 8 figures, accepted for publication in Journal of Applied Physics

Published
2013
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28. Insights into Laser-Materials Interaction Through Modeling on Atomic and Macroscopic Scales

Author

Shugaev, Maxim V., He, Miao, Lizunov, Sergey A., Levy, Yoann, Derrien, Thibault J.-Y., Zhukov, Vladimir P., Bulgakova, Nadezhda M., Zhigilei, Leonid V., Hull, Robert, Series Editor, Jagadish, Chennupati, Series Editor, Kawazoe, Yoshiyuki, Series Editor, Osgood, Richard M., Series Editor, Parisi, Jürgen, Series Editor, Pohl, Udo W., Series Editor, Seong, Tae-Yeon, Series Editor, Uchida, Shin-ichi, Series Editor, Wang, Zhiming M., Series Editor, Kruzic, Jamie, Series Editor, and Ossi, Paolo M., editor

Published
2018
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29. Application of a two-temperature model for the investigation of the periodic structure formation on Si surface in femtosecond laser interaction

Author

Derrien, Thibault J. Y., Sarnet, Thierry, Sentis, Marc, and Itina, Tatiana E.

Subjects
Physics - Plasma Physics, Condensed Matter - Materials Science, Physics - Optics
Abstract

We consider the case of surface irradiation by a small number of femtosecond laser shots leading to the formation of surface ripples. To explain this effect, we propose a numerical model that accounts for the following processes: (i) interference of the laser irradiation with an electromagnetic surface wave propagating on a silicon sample; (ii) free carrier formation and laser energy absorption; (iii) energy relaxation and electron-phonon coupling. We perform numerical calculations taking into account the interference of a surface wave with laser; and present the obtained simulation results in order to explain formation mechanisms of the experimentally observed patterns.

Published
2011

30. Formation of femtosecond laser induced surface structures on silicon : insights from numerical modeling and single pulse experiments

Author

Derrien, Thibault J. Y., Torres, Rémi, Sarnet, Thierry, Sentis, Marc, and Itina, Tatiana E.

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science, Physics - Optics, Physics - Plasma Physics
Abstract

Laser induced periodic surface structures (LIPSS) are formed by multiple irradiation of femtosecond laser on a silicon target. In this paper, we focus and discuss the surface plasmon polariton mechanism by an analysis of transient phase-matching conditions in Si on the basis of a single pulse experiment and numerical simulations. Two regimes of ripple formation mechanisms at low number of shots are identified and detailed. Correlation of numerical and experimental results is good., Comment: 4 pages, 5 figures, EMRS Spring 2011 conference, Nice

Published
2011
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36. Genome editing in primary cells and in vivo using viral-derived Nanoblades loaded with Cas9-sgRNA ribonucleoproteins

Author

Mangeot, Philippe E., Risson, Valérie, Fusil, Floriane, Marnef, Aline, Laurent, Emilie, Blin, Juliana, Mournetas, Virginie, Massouridès, Emmanuelle, Sohier, Thibault J. M., Corbin, Antoine, Aubé, Fabien, Teixeira, Marie, Pinset, Christian, Schaeffer, Laurent, Legube, Gaëlle, Cosset, François-Loïc, Verhoeyen, Els, Ohlmann, Théophile, and Ricci, Emiliano P.

Published
2019
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46. Converting an Anti-Mouse CD4 Monoclonal Antibody into an scFv Positron Emission Tomography Imaging Agent for Longitudinal Monitoring of CD4+ T Cells

Author

Thibault J. Harmand, Djenet Bousbaine, Andrew W. Woodham, Hidde L. Ploegh, Novalia Pishesha, Hailey Heston, Ashraful Islam, Ross W. Cheloha, and Mohammad Rashidian

Subjects
medicine.diagnostic_test, Chemistry, medicine.drug_class, Immunology, Cell, Monoclonal antibody, Molecular biology, Imaging agent, medicine.anatomical_structure, In vivo, Positron emission tomography, Monoclonal, medicine, PEGylation, Immunology and Allergy, CD8
Abstract

Immuno–positron emission tomography (PET), a noninvasive imaging modality, can provide a dynamic approach for longitudinal assessment of cell populations of interest. Transformation of mAbs into single-chain variable fragment (scFv)–based PET imaging agents would allow noninvasive tracking in vivo of a wide range of possible targets. We used sortase-mediated enzymatic labeling in combination with PEGylation to develop an anti-mouse CD4 scFv–based PET imaging agent constructed from an anti-mouse CD4 mAb. This anti-CD4 scFv can monitor the in vivo distribution of CD4+ T cells by immuno-PET. We tracked CD4+ and CD8+ T cells in wild-type mice, in immunodeficient recipients reconstituted with monoclonal populations of OT-II and OT-I T cells, and in a B16 melanoma model. Anti-CD4 and -CD8 immuno-PET showed that the persistence of both CD4+ and CD8+ T cells transferred into immunodeficient mice improved when recipients were immunized with OVA in CFA. In tumor-bearing animals, infiltration of both CD4+ and CD8+ T cells increased as the tumor grew. The approach described in this study should be readily applicable to convert clinically useful Abs into the corresponding scFv PET imaging agents.

Published
2021

49. Asparaginyl Ligase-Catalyzed One-Step Cell Surface Modification of Red Blood Cells

Author

Hidde L. Ploegh, Yushu J. Xie, Novalia Pishesha, William Pinney, Weiyi Ma, Fabian B. H. Rehm, and Thibault J. Harmand

Subjects
0301 basic medicine, Cell, Mice, SCID, 01 natural sciences, Biochemistry, Diabetes Mellitus, Experimental, Immune tolerance, law.invention, Oldenlandia, 03 medical and health sciences, Immune system, Mice, Inbred NOD, law, Cell Line, Tumor, medicine, Animals, Carbon-Nitrogen Ligases, Cell Engineering, Plant Proteins, chemistry.chemical_classification, DNA ligase, 010405 organic chemistry, Erythrocyte Membrane, hemic and immune systems, General Medicine, Mononuclear phagocyte system, Single-Domain Antibodies, In vitro, 0104 chemical sciences, Cell biology, Mice, Inbred C57BL, Cysteine Endopeptidases, 030104 developmental biology, medicine.anatomical_structure, chemistry, Mutation, Cancer cell, Recombinant DNA, Molecular Medicine, Female, Erythrocyte Transfusion, Peptides, circulatory and respiratory physiology
Abstract

Red blood cells (RBCs) can serve as vascular carriers for drugs, proteins, peptides, and nanoparticles. Human RBCs remain in the circulation for ∼120 days, are biocompatible, and are immunologically largely inert. RBCs are cleared by the reticuloendothelial system and can induce immune tolerance to foreign components attached to the RBC surface. RBC conjugates have been pursued in clinical trials to treat cancers and autoimmune diseases and to correct genetic disorders. Still, most methods used to modify RBCs require multiple steps, are resource-intensive and time-consuming, and increase the risk of inflicting damage to the RBCs. Here, we describe direct conjugation of peptides and proteins onto the surface of RBCs in a single step, catalyzed by a highly efficient, recombinant asparaginyl ligase under mild, physiological conditions. In mice, the modified RBCs remain intact in the circulation, display a normal circulatory half-life, and retain their immune tolerance-inducing properties, as shown for protection against an accelerated model for type 1 diabetes. We conjugated different nanobodies to RBCs with retention of their binding properties, and these modified RBCs can target cancer cells in vitro. This approach provides an appealing alternative to current methods of RBC engineering. It provides ready access to more complex RBC constructs and highlights the general utility of asparaginyl ligases for the modification of native cell surfaces.

Published
2021

50. Induction of antigen-specific tolerance by nanobody–antigen adducts that target class-II major histocompatibility complexes

Author

Novalia Pishesha, Nicholas McCaul, Martín A. Rossotti, Weiyi Ma, Robine Janssen, Gualberto González-Sapienza, Liyan Y. Smeding, Tao Fang, William Pinney, Ashraful Islam, Yushu J. Xie, Harun R. Sugito, Thibault J. Harmand, Hidde L. Ploegh, and Leif S. Ludwig

Subjects
0301 basic medicine, Type 1 diabetes, biology, Chemistry, Experimental autoimmune encephalomyelitis, Antigen presentation, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Major histocompatibility complex, medicine.disease, Computer Science Applications, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Antigen, Rheumatoid arthritis, Immunology, Systemic administration, biology.protein, medicine, 030217 neurology & neurosurgery, Glucocorticoid, Biotechnology, medicine.drug
Abstract

The association of autoimmune diseases with particular allellic products of the class-II major histocompatibility complex (MHCII) region implicates the presentation of the offending self-antigens to T cells. Because antigen-presenting cells are tolerogenic when they encounter an antigen under non-inflammatory conditions, the manipulation of antigen presentation may induce antigen-specific tolerance. Here, we show that, in mouse models of experimental autoimmune encephalomyelitis, type 1 diabetes and rheumatoid arthritis, the systemic administration of a single dose of nanobodies that recognize MHCII molecules and conjugated to the relevant self-antigen under non-inflammatory conditions confers long-lasting protection against these diseases. Moreover, co-administration of a nanobody-antigen adduct and the glucocorticoid dexamethasone, conjugated to the nanobody via a cleavable linker, halted the progression of established experimental autoimmune encephalomyelitis in symptomatic mice and alleviated their symptoms. This approach may represent a means of treating autoimmune conditions.

Published
2021

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