Your search keyword '"Sergeev, Ilya"' showing total 27 results

1. Investigation of Fe-Ag and Ag-Fe Interfaces in Ag-57Fe-Ag trilayer Using Nuclear Resonance Scattering under X-ray Standing Wave Conditions

Author

Priyadarsini, Manisha, Singh, Sharanjeet, Sergeev, Ilya, Leupold, Olaf, Gupta, Ajay, and Kumar, Dileep

Subjects

Condensed Matter - Materials Science

Abstract

Understanding the interfaces of layered nanostructures is key to optimizing their structural and magnetic properties for the desired functionality. In the present work, the two interfaces of a few nm thick Fe layer in Ag-57Fe-Ag trilayers are studied with a depth resolution of a fraction of a nanometer using x-ray standing waves (XSWs) generated by an underlying [W-Si]x10 multilayer (MLT) at an x-ray incident angle around the Bragg peak of the MLT. Interface selectivity in Ag-57Fe-Ag trilayers was achieved by moving XSW antinodes across the interfaces by optimizing suitable incident angles and performing depth-resolved nuclear resonance scattering (NRS) and X-ray fluorescence (XRF) measurements for magnetic and structural properties. The combined analysis revealed that the rms roughness of 57Fe-on-Ag and Ag-on-57Fe interfaces are not equal. The roughness of the 57Fe-on-Ag interface is 10 Angstrom, while that of the Ag-on-57Fe interface is 6 Angstrom. 57Fe isotope sensitive NRS revealed that hyperfine field (HFF) at both interfaces of 57Fe-on-Ag and Ag-on-57Fe interfaces are distinct, which is consistent with the difference in interface roughnesses measured as root mean square (RMS) roughness. Thermal annealing induces 57Fe diffusion into the Ag layer, and annealing at 325 C transforms the sample into a paramagnetic state. This behavior is attributed to forming 57Fe nanoparticles within the Ag matrix, exhibiting a paramagnetic nature. These findings provide deep insights into interface properties crucial for developing advanced nanostructures and spintronic devices., Comment: 17 pages, 5 figures

Published

2025

2. Buried Interfaces and Spin Orientation in [Co/Pt]10 /Fe multilayer with Orthogonal Magnetic Anisotropy: Effect of Fe Thickness

Author

Singh, Sadhana, Priyadarsini, Manisha, Singh, Sharanjeet, Sergeev, Ilya, Herlitschke, Marcus, Wille, H. C., and Kumar, Dileep

Subjects

Condensed Matter - Materials Science

Abstract

In the present work, spin orientation and variation of the strength of coupling in [Co/Pt]ML/Fe multilayer have been investigated as a function of the thickness of the Fe layer. [Co/Pt]ML/Fe multilayer has orthogonal anisotropy with the Fe layer, and [Co/Pt]ML has in-plane magnetic anisotropy and perpendicular anisotropy, respectively. Measurements are performed using in-situ magneto-optical Kerr effect (MOKE) and isotope-sensitive depth-resolved nuclear resonance scattering (NRS) technique. Real-time in-situ MOKE measurement during Fe growth reveals that with an increase in thickness of the Fe layer, moments of Fe layer reorientation from out of the plane to in-plane direction. This is attributed to the decrease in the coupling between the [Co/Pt]ML and Fe layer. For the depth-dependent study, two [Co/Pt]ML/Fe multilayers having the same thickness but different positions of the Fe57 marker layer ([Co/Pt]MLFe/Fe57) and [Co/Pt]MLFe57/Fe ) were studied using the NRS technique. Films with varying external magnetic fields were also studied to investigate coupling strength. Measurements were performed under the x-ray standing wave conditions to enhance resonance yield. It is observed that for the 75 {\AA} Fe in [Co/Pt]ML/Fe multilayer, the coupling varies along the depth of the Fe layer. The coupling is strong at [Co/Pt]ML and Fe interface with spins of the Fe layer aligned in the out-of-plane direction, whereas moments away from the interface are weakly coupled and aligned in-plane along the magnetic easy axis. Due to this gradient in strength of coupling along the depth, a large magnetic field is required to reorient spins at the interface along the magnetic hard axis of the Fe layer; however, spins away from the interface can rotate freely even in the low magnetic field., Comment: 15 pages, 7 figures

Published

2024

3. Resolving the pressure induced 'self-insertion' in skutterudite CoSb3

Author

Wang, Bihan, Pakhomova, Anna, Khandarkhaeva, Saiana, Pillaca, Mirtha, Gille, Peter, Ren, Zhe, Lapkin, Dmitry, Assalauova, Dameli, Alexeev, Pavel, Sergeev, Ilya, Kulkarni, Satishkumar, Weng, Tsu-Chien, Sprung, Michael, Liermann, Hanns-Peter, Vartanyants, Ivan A., and Glazyrin, Konstantin

Subjects

Condensed Matter - Materials Science, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Other Condensed Matter, Condensed Matter - Strongly Correlated Electrons

Abstract

CoSb3, a skutterudite compound, is key in studying thermoelectric materials. Under compression, it undergoes a 'self-insertion' isostructural transition, redistributing large Sb atoms among crystallographic sites. We investigated CoSb3's structural stability up to 70 GPa using single crystal X-ray diffraction and high-resolution X-ray scattering, including Bragg Coherent Diffraction Imaging. We examined the material in three pressure transmitting media (PTMs), exploring how PTMs and nonhydrostatic stresses affect CoSb3. Notably, the 'self-insertion' transition may reduce or even make compressibility negative. Additionally, we report a previously unknown phase transformation from cubic Im-3 to trigonal R-3 above 40 GPa and discuss the phases' distinctive behaviors., Comment: Manuscript: 27 pages, 12 Figures

Published

2024

4. TEMPUS, a Timepix4-based system for event-based X-rays detection

Author

Correa, Jonathan, Ignatenko, Alexandr, Pennicard, David, Lange, Sabine, Fridman, Sergei, Karl, Sebastian, Lohse, Leon, Senfftleben, Bjoern, Sergeev, Ilya, Velten, Sven, Prajapat, Deepak, Bocklage, Lars, Bromberger, Hubertus, Samartsev, Andrey, Chumakov, Aleksandr, Rueffer, Rudolf, von Zanthier, Joachim, Roehlsberger, Ralf, and Graafsma, Heinz

Subjects

Physics - Instrumentation and Detectors

Abstract

A readout system based on the Timepix4 ASIC, is being developed for photon science. The TEMPUS detector can be operated in two distinct modes: a photon counting mode, which allows for conventional full-frame readout at rates up to 40 kfps; and an event-driven time-stamping mode, which allows excellent time resolution in the nanosecond regime in measurements with moderate X-ray flux. In this paper, we introduce the initial prototype, a single-chip system, and present the first results obtained at PETRA III and ESRF., Comment: 19 pages, 6 figures

Published

2024

5. Collective nuclear excitation and pulse propagation in single-mode x-ray waveguides

Author

Lohse, Leon M., Andrejić, Petar, Velten, Sven, Vassholz, Malte, Neuhaus, Charlotte, Negi, Ankita, Panchwanee, Anjali, Sergeev, Ilya, Pálffy, Adriana, Salditt, Tim, and Röhlsberger, Ralf

Subjects

Quantum Physics, Physics - Accelerator Physics, Physics - Optics

Abstract

M\"ossbauer nuclei constitute exceptionally clean quantum-optical systems with transitions in the hard x-ray energy range, which, placed in x-ray waveguides, are a uniquely capable platform to study collective radiative effects in waveguide quantum electrodynamics (QED). In this work, we design and demonstrate the so-far unexplored nuclear resonant x-ray propagation in thin-film waveguides coupled in forward incidence, resolving excitation and collective evolution of M\"ossbauer nuclei in both time and position. To describe the effects of geometry on propagation and collective evolution, we present a unifying theoretical model. Our findings not only open up a new design space for experiments in nuclear resonant scattering and nuclear quantum optics, but also demonstrate a nanometer-sized x-ray source with extreme temporal and spatial coherence. %which previously were limited to either unstructured foil samples or translation-invariant reflectivity and diffraction configurations. This gives access to a new regime of waveguide QED with hard x-rays and furthermore paves a new route to coherent spectro-microscopic investigations at the nanoscale.

Published

2024

6. Depth Resolved Magnetic Studies of Fe/57Fe/C60 Bilayer Structure Under X-Ray Standing Wave Condition

Author

Kaushik, Sonia, Raj, Rakhul, Sergeev, Ilya, Gupta, Pooja, Reddy, V. Raghavendra, and Kumar, Dileep

Published

2024

7. Study of magnetism in MgO/FeCoB/MgO trilayers using x-ray standing wave techniques

Author

Jamal, Md. Shahid, Gupta, Pooja, Sergeev, Ilya, Leupold, Olaf, and Kumar, Dileep

Subjects

Condensed Matter - Materials Science

Abstract

Interfaces in the MgO-FeCoB-MgO trilayer have been studied with grazing incident nuclear resonance scattering (GINRS) using the x-ray standing waves (XSW) technique. High depth selectivity of the present method allows one to measure magnetism and structure at the two interfaces of FeCoB, namely, FeCoB-on-MgO and MgO-on-FeCoB, independently, yielding an intriguing result that both interfaces are not symmetric. A high-density layer with an increased magnetic hyperfine field at the FeCoB-on-MgO interface suggests different growth mechanisms at the two interfaces. The azimuthal angle-dependent magneto-optic Kerr effect measurements reveal the presence of unusual uniaxial magnetic anisotropy (UMA) in the trilayer. An in-situ temperature-dependent study discovered that this UMA systematically reduces with temperature. The trilayer becomes isotropic at 450C with an order-of-magnitude increase in coercivity. The asymmetry at the interfaces is, in turn, explained by boron diffusion from the FeCoB interface layer into the nearby MgO layer. Stress-induced UMA is observed in the boron-deficient FeCoB layer, superimposed with the bulk FeCoB layer, and found to be responsible for unusual UMA. The temperature-dependent variation in the UMA and coercivity can be understood in terms of variations in the internal stresses and coupling between FeCoB bulk and the interface layer.

Published

2023

8. Resolving the pressure induced ‘self-insertion’ in skutterudite CoSb3

Author

Wang, Bihan, Pakhomova, Anna, Khandarkhaeva, Saiana, Pillaca, Mirtha, Gille, Peter, Ren, Zhe, Lapkin, Dmitry, Assalauova, Dameli, Alexeev, Pavel, Sergeev, Ilya, Kulkarni, Satishkumar, Weng, Tsu-Chien, Sprung, Michael, Liermann, Hanns-Peter, Vartanyants, Ivan A., and Glazyrin, Konstantin

Published

2025

9. Origin of exchange bias in [Co/Pt]ML/Fe multilayer with orthogonal magnetic anisotropies

Author

Singh, Sadhana, Khanderao, Avinash G., Gupta, Mukul, Sergeev, Ilya, Wille, H. C., Schlage, Kai, Herlitschke, Marcus, and Kumar, Dileep

Subjects

Condensed Matter - Materials Science

Abstract

Magnetization reversal of soft ferromagnetic Fe layer, coupled to [Co/Pt]ML multilayer [ML] with perpendicular magnetic anisotropy (PMA), has been studied in-situ with an aim to understand the origin of exchange bias (EB) in orthogonal magnetic anisotropic systems. The interface remanant state of the ML is modified by magnetic field annealing, and the effect of the same on the soft Fe layer is monitored using the in-situ magneto-optical Kerr effect (MOKE). A considerable shift in the Fe layer hysteresis loop from the centre and an unusual increase in the coercivity, similar to exchange bias phenomena, is attributed to the exchange coupling at the [Co/Pt]ML and Fe interface. The effect of the coupling on spin orientation at the interface is further explored precisely by performing an isotope selective grazing incident nuclear resonance scattering (GINRS) technique. Here, the interface selectivity is achieved by introducing a 2 nm thick Fe57 marker between [Co/Pt]ML and Fe layers. Interface sensitivity is further enhanced by performing measurements under the x-ray standing wave conditions. The combined MOKE and GINRS analysis revealed the unidirectional pinning of the Fe layer due to the net in-plane magnetic spin at the interface caused by magnetic field annealing. Unidirectional exchange coupling or pinning at the interface, which may be due to the formation of asymmetrical closure domains, is found responsible for the origin of EB with an unusual increase in coercivity., Comment: 9 figures, 1 table

Published

2022

10. Magnetism in four-layered Aurivillius Bi$_5$FeTi$_3$O$_{15}$ at high pressures : A nuclear forward scattering study

Author

Prajapat, Deepak, Surampalli, Akash, Panchwanee, Anjali, Meneghini, Carlo, Sergeev, Ilya, Leubold, Olaf, Velaga, Srihari, Merlini, Marco, Glazyrin, Konstantin, Steinbrügge, René, Jafari, Atefeh, Poswal, Himashu Kumar, Sathe, V. G., and Reddy, V. Raghavendra

Subjects

Condensed Matter - Materials Science

Abstract

We report the structural and magnetic properties of four-layer Aurivillius compound Bi$_5$FeTi$_3$O$_{15}$ (BFTO) at high hydrostatic pressure conditions. The high-pressure XRD data does not explicitly show structural phase transitions with hydrostatic pressure, however the observed changes in lattice parameters indicate structural modifications at different pressure values. In the initial pressure region values, the lattice parameters $\textit{a}$- and $\textit{b}$- are nearly equal implying a quasi-tetragonal structure, however as the pressure increases $\textit{a}$- and $\textit{b}$- diverges apart and exhibits complete orthorhombic phase at pressure values of about $\geq$8 GPa. Principal component analysis of high pressure Raman measurements point out an evident change in the local structure at about 5.5 GPa indicating that the evolution of the local structure under applied pressure seems to not follow crystallographic changes (long range order). Nuclear forward scattering (NFS) measurement reveal the development of magnetic ordering in BFTO at 5K with high pressures. A progressive increase in magnetic order is observed with increase in pressure at 5K. Further, NFS measurements carried out at constant pressure (6.4GPa) and different temperatures indicate that the developed magnetism disappears at higher temperatures (20K). It is attempted to explain these observations in terms of the observed structural parameter variation with pressure., Comment: 8 pages, 5 figures

Published

2022

11. Resonant X-ray excitation of the nuclear clock isomer 45Sc

Author

Shvyd’ko, Yuri, Röhlsberger, Ralf, Kocharovskaya, Olga, Evers, Jörg, Geloni, Gianluca Aldo, Liu, Peifan, Shu, Deming, Miceli, Antonino, Stone, Brandon, Hippler, Willi, Marx-Glowna, Berit, Uschmann, Ingo, Loetzsch, Robert, Leupold, Olaf, Wille, Hans-Christian, Sergeev, Ilya, Gerharz, Miriam, Zhang, Xiwen, Grech, Christian, Guetg, Marc, Kocharyan, Vitali, Kujala, Naresh, Liu, Shan, Qin, Weilun, Zozulya, Alexey, Hallmann, Jörg, Boesenberg, Ulrike, Jo, Wonhyuk, Möller, Johannes, Rodriguez-Fernandez, Angel, Youssef, Mohamed, Madsen, Anders, and Kolodziej, Tomasz

Published

2023

12. Vibrational properties of the mononuclear Fe[HBpz3]2 spin crossover complex

Author

Hochdörffer, Tim, Wolny, Juliusz A., Omlor, Andreas, Scherthan, Lena, Auerbach, Hendrik, Müller, Christina S., Wille, Hans-Christian, Sergeev, Ilya, and Schünemann, Volker

Published

2022

13. TEMPUS, a Timepix4‐based system for the event‐based detection of X‐rays.

Author

Correa, Jonathan, Ignatenko, Alexandr, Pennicard, David, Lange, Sabine, Fridman, Sergei, Karl, Sebastian, Lohse, Leon, Senfftleben, Björn, Sergeev, Ilya, Velten, Sven, Prajapat, Deepak, Bocklage, Lars, Bromberger, Hubertus, Samartsev, Andrey, Chumakov, Aleksandr, Rüffer, Rudolf, von Zanthier, Joachim, Röhlsberger, Ralf, and Graafsma, Heinz

Subjects

PHOTON detectors, PHOTONS, DETECTORS, PROTOTYPES

Abstract

TEMPUS is a new detector system being developed for photon science. It is based on the Timepix4 chip and, thus, it can be operated in two distinct modes: a photon‐counting mode, which allows for conventional full‐frame readout at rates up to 40 kfps; and an event‐driven time‐stamping mode, which allows excellent time resolution in the nanosecond regime in measurements with moderate X‐ray flux. In this paper, the initial prototype, a single‐chip device, is introduced, and the readout system described. Moreover, and in order to evaluate its capabilities, some tests were performed at PETRA III and ESRF for which results are also presented. [ABSTRACT FROM AUTHOR]

Published

2024

14. Reply to: On yoctosecond science

Author

Heeg, Kilian P., Bocklage, Lars, Strohm, Cornelius, Ott, Christian, Lentrodt, Dominik, Haber, Johann, Wille, Hans-Christian, Rüffer, Rudolf, Gollwitzer, Jakob, Adolff, Christian F., Schlage, Kai, Sergeev, Ilya, Leupold, Olaf, Meier, Guido, Keitel, Christoph H., Röhlsberger, Ralf, Pfeifer, Thomas, and Evers, Jörg

Published

2022

15. Influence of Compression Loading on Acoustic Emission and Light Polarization Features in TeO 2 Crystal.

Author

Machikhin, Alexander, Chernov, Dmitry, Khokhlov, Demid, Marchenkov, Artem, Bykov, Alexey, Eliovich, Yan, Petrov, Ivan, Balandin, Timofey, Kren, Alexander, Sergeev, Ilya, and Pisarevsky, Yuri

Subjects

SOUND pressure, ANISOTROPIC crystals, OPTICAL polarization, COMPRESSION loads, BRITTLE materials

Abstract

Monitoring the processes inside crystalline materials under their operating conditions is of great interest in optoelectronics and scientific instrumentation. Early defect detection ensures the proper functioning of multiple crystal-based devices. In this study, a combination of acoustic emission (AE) sensing and cross-polarization imaging is proposed for the fast characterization of the crystal's structure. For the experiments, tellurium dioxide (TeO2) crystal was chosen due to its wide use in acousto-optics. Studies were performed under uniaxial compression loading with a simultaneous acquisition of AE signals and four polarized optical images. An analysis of the temporal dependencies of the AE data and two-dimensional maps of the light depolarization features was carried out in order to establish quantitative criteria for irreversible damage initiation and crack-like defect formation. The obtained results reveal the polarization image patterns and the AE pulse duration alteration specific to these processes, and they open up new possibilities for non-destructively monitoring in real-time the structure of optically transparent crystals under their operating conditions. [ABSTRACT FROM AUTHOR]

Published

2024

16. Depth Resolved Magnetic Studies of Fe/57Fe/C60 Bilayer Structure Under X-Ray Standing Wave Condition.

Author

Kaushik, Sonia, Raj, Rakhul, Sergeev, Ilya, Gupta, Pooja, Reddy, V. Raghavendra, and Kumar, Dileep

Subjects

MAGNETIC properties, SPINTRONICS, ORGANIC semiconductors, FERROMAGNETIC materials, X-rays, HYPERFINE interactions, HYPERFINE structure

Abstract

Organic spintronics has emerged as a promising field for exploring novel spin-based phenomena and devices, offering the potential for low-power, flexible, and biocompatible electronics. The interface between metallic ferromagnetic and semiconducting organic layers plays a pivotal role in spin injection, transport, and extraction processes in these devices. Therefore, achieving a comprehensive understanding of the magnetic properties at these interfaces is essential for advancing device performance and functionality. This work explores the magnetic properties at the interface between thin Fe film and the C60 layer. We employ a multi-technique approach, combining the magneto-optic Kerr effect, which provides a global assessment of magnetic properties, and depth-resolved grazing incidence nuclear resonance scattering (GINRS) under X-ray standing wave conditions, enabling us to probe magnetism with high spatial resolution within the interfacial region. GINRS measurements reveal intriguing behavior at the interface, characterized by reduced hyperfine fields in diffused 57Fe layers. This observation suggests the formation of superparamagnetic clusters, which significantly influence the magnetic properties at the interface. These findings provide valuable insights into the complex interplay between ferromagnetic materials and organic semiconductors at the nanoscale, offering potential avenues for tailoring magnetoresistance effects in organic spintronic devices and contributing to the fundamental understanding of spin-dependent phenomena in organic spintronics. [ABSTRACT FROM AUTHOR]

Published

2024

17. Origin of exchange bias in [Co/Pt]ML/Fe multilayers with orthogonal magnetic anisotropies

Author

Singh, Sadhana, primary, Khanderao, Avinash G., additional, Gupta, Mukul, additional, Sergeev, Ilya, additional, Wille, H. C., additional, Schlage, Kai, additional, Herlitschke, Marcus, additional, and Kumar, Dileep, additional

Published

2023

18. Treatment of COVID ‐19 patients with a SARS‐CoV ‐2‐specific siRNA ‐peptide dendrimer formulation

Author

Khaitov, Musa, primary, Nikonova, Alexandra, additional, Kofiadi, Ilya, additional, Shilovskiy, Igor, additional, Smirnov, Valeriy, additional, Elisytina, Olga, additional, Maerle, Artem, additional, Shatilov, Artem, additional, Shatilova, Anastasia, additional, Andreev, Sergey, additional, Sergeev, Ilya, additional, Trofimov, Dmitry, additional, Latysheva, Tatyana, additional, Ilyna, Natalia, additional, Martynov, Alexander, additional, Rabdano, Sevastyan, additional, Ruzanova, Ellina, additional, Savelev, Nikita, additional, Pletiukhina, Iuliia, additional, Safi, Ariana, additional, Ratnikov, Vyacheslav, additional, Gorelov, Viktor, additional, Kaschenko, Viktor, additional, Kucherenko, Natalya, additional, Umarova, Irina, additional, Moskaleva, Svetlana, additional, Fabrichnikov, Sergei, additional, Zuev, Oleg, additional, Pavlov, Nikolai, additional, Kruchko, Daria, additional, Berzin, Igor, additional, Goryachev, Dmitriy, additional, Merkulov, Vadim, additional, Shipulin, German, additional, Udin, Sergey, additional, Trukhin, Victor, additional, Valenta, Rudolf, additional, and Skvortsova, Veronica, additional

Published

2023

19. Interface-resolved study of magnetism in MgO/FeCoB/MgO trilayers using x-ray standing wave techniques

Author

Jamal, Md. Shahid, primary, Gupta, Pooja, additional, Sergeev, Ilya, additional, Leupold, Olaf, additional, and Kumar, Dileep, additional

Published

2023

20. X-Ray Photoabsorption of Density-sensitive Metastable States in Ne vii, Fe xxii, and Fe xxiii

Author

Steinbrügge, René, primary, Kühn, Steffen, additional, Nicastro, Fabrizio, additional, Gu, Ming Feng, additional, Togawa, Moto, additional, Hoesch, Moritz, additional, Seltmann, Jörn, additional, Sergeev, Ilya, additional, Trinter, Florian, additional, Bernitt, Sonja, additional, Shah, Chintan, additional, Leutenegger, Maurice A., additional, and Crespo López-Urrutia, José R., additional

Published

2022

21. Resonant X-ray excitation of the nuclear clock isomer 45Sc.

Author

Shvyd’ko, Yuri, Röhlsberger, Ralf, Kocharovskaya, Olga, Evers, Jörg, Geloni, Gianluca Aldo, Liu, Peifan, Shu, Deming, Miceli, Antonino, Stone, Brandon, Hippler, Willi, Marx-Glowna, Berit, Uschmann, Ingo, Loetzsch, Robert, Leupold, Olaf, Wille, Hans-Christian, Sergeev, Ilya, Gerharz, Miriam, Zhang, Xiwen, Grech, Christian, and Guetg, Marc

Abstract

Resonant oscillators with stable frequencies and large quality factors help us to keep track of time with high precision. Examples range from quartz crystal oscillators in wristwatches to atomic oscillators in atomic clocks, which are, at present, our most precise time measurement devices1. The search for more stable and convenient reference oscillators is continuing2–6. Nuclear oscillators are better than atomic oscillators because of their naturally higher quality factors and higher resilience against external perturbations7–9. One of the most promising cases is an ultra-narrow nuclear resonance transition in 45Sc between the ground state and the 12.4-keV isomeric state with a long lifetime of 0.47 s (ref. 10). The scientific potential of 45Sc was realized long ago, but applications require 45Sc resonant excitation, which in turn requires accelerator-driven, high-brightness X-ray sources11 that have become available only recently. Here we report on resonant X-ray excitation of the 45Sc isomeric state by irradiation of Sc-metal foil with 12.4-keV photon pulses from a state-of-the-art X-ray free-electron laser and subsequent detection of nuclear decay products. Simultaneously, the transition energy was determined as 12,389.59 + 0.12 syst ± 0.15 stat eV with an uncertainty that is two orders of magnitude smaller than the previously known values. These advancements enable the application of this isomer in extreme metrology, nuclear clock technology, ultra-high-precision spectroscopy and similar applications.Resonant X-ray excitation of the 45Sc nuclear isomeric state was achieved by irradiation of a Sc-metal foil with 12.4-keV photon pulses from a state-of-the-art X-ray free-electron laser, allowing a high-precision determination of the transition energy. [ABSTRACT FROM AUTHOR]

Published

2023

22. Magnetism in four-layered Aurivillius Bi5FeTi3O15 at high pressures

Author

Prajapat, Deepak, primary, Surampalli, Akash, additional, Panchwanee, Anjali, additional, Meneghini, Carlo, additional, Sergeev, Ilya, additional, Leupold, Olaf, additional, Velaga, Srihari, additional, Krishna de, Binoy, additional, Merlini, Marco, additional, Glazyrin, Konstantin, additional, Steinbrügge, René, additional, Jafari, Atefeh, additional, Poswal, Himashu Kumar, additional, Sathe, V.G., additional, and Reddy, V. Raghavendra, additional

Published

2022

23. Treatment of COVID-19 patients with a SARS-CoV-2-specific siRNA-peptide dendrimer formulation

Author

Khaitov, Musa, primary, Nikonova, Alexandra, additional, Kofiadi, Ilya, additional, Shilovskiy, Igor, additional, Smirnov, Valeriy, additional, Elisyutina, Olga G., additional, Maerle, Artem, additional, Shatilov, Artem, additional, Timofeeva, Anastasia, additional, Andreev, Sergey, additional, Sergeev, Ilya, additional, Trofimov, Dmitry, additional, Latysheva, Tatyana, additional, Ilina, Nataliya, additional, Martynov, Alexander, additional, Rabdano, Sevastyan, additional, Ruzanova, Ellina, additional, Savelev, Nikita, additional, Pletiukhina, Iuliia, additional, Safi, Ariana, additional, Ratnikov, Vyacheslav, additional, Gorelov, Viktor, additional, Kaschenko, Viktor, additional, Kucherenko, Natalya, additional, Umarova, Irina, additional, Moskaleva, Svetlana, additional, Fabrichnikov, Sergei, additional, Zuev, Oleg, additional, Pavlov, Nikolai, additional, Kruchko, Daria, additional, Berzin, Igor, additional, Goryachev, Dmitriy, additional, Merkulov, Vadim, additional, Trukhin, Victor, additional, Valenta, Rudolf, additional, and Skvortsova, Veronica, additional

Published

2022

24. Substituent effects in iron porphyrin catalysts for the hydrogen evolution reaction

Author

Heppe, Nils, primary, Gallenkamp, Charlotte, additional, Paul, Stephen, additional, Segura-Salas, Nicole, additional, von Rhein, Niklas, additional, Kaiser, Bernhard, additional, Jaegermann, Wolfram, additional, Jafari, Atefeh, additional, Sergeev, Ilya, additional, Krewald, Vera, additional, and Kramm, Ulrike I., additional

Published

2022

25. Anti‐inflammatory effect of siRNAs targeted il‐4 and il‐13 in a mouse model of allergic rhinitis

Author

Shilovskiy, Igor, primary, Nikonova, Alexandra, additional, Barvinskaia, Ekaterina, additional, Kaganova, Mariya, additional, Nikolskii, Aleksandr, additional, Vishnyakova, Lyudmila, additional, Kovchina, Valeriia, additional, Yumashev, Kirill, additional, Korneev, Artem, additional, Petukhova, Olga, additional, Kudlay, Dmitry, additional, Smirnov, Valeriy, additional, Andreev, Sergey, additional, Kozhikhova, Ksenia, additional, Shatilov, Artem, additional, Shatilova, Anastasiia, additional, Maerle, Artem, additional, Sergeev, Ilya, additional, Trofimov, Dmitry, additional, and Khaitov, Musa, additional

Published

2022

26. Vibrational properties of the mononuclear Fe[HBpz3]2 spin crossover complex.

Author

Hochdörffer, Tim, Wolny, Juliusz A., Omlor, Andreas, Scherthan, Lena, Auerbach, Hendrik, Müller, Christina S., Wille, Hans-Christian, Sergeev, Ilya, and Schünemann, Volker

Subjects

SPIN crossover, SCATTERING (Physics), MOLECULAR vibration, DENSITY functional theory, IRON, INELASTIC neutron scattering, IRON powder

Abstract

Within this work, we report the results of nuclear inelastic scattering experiments of the low-spin phase of the iron(II) mononuclear SCO complex Fe[HBpz3]2 and density functional theory based calculations performed on a model molecule of the complex. We show that the calculated partial density of vibrational states based on the structure of a single iron(II) center which is linked by three pyrazole rings to borat is in good accordance with the experimentally obtained 57Fe-pDOS and assign the molecular vibrations to the prominent optical phonons. [ABSTRACT FROM AUTHOR]

Published

2022

27. Nuclear quantum memory for hard x-ray photon wave packets.

Author

Velten, Sven, Bocklage, Lars, Xiwen Zhang, Kai Schlage, Panchwanee, Anjali, Sadashivaiah, Sakshath, Sergeev, Ilya, Leupold, Olaf, Chumakov, Aleksandr I., Kocharovskaya, Olga, and Röhlsberger, Ralf

Subjects

*WAVE packets, *HARD X-rays, *DOPPLER effect, *QUANTUM optics, *NUCLEAR structure, *FREQUENCY combs, *ULTRASHORT laser pulses

Abstract

Optical quantum memories are key elements in modern quantum technologies to reliably store and retrieve quantum information. At present, they are conceptually limited to the optical wavelength regime. Recent advancements in x-ray quantum optics render an extension of optical quantum memory protocols to ultrashort wavelengths possible, thereby establishing quantum photonics at x-ray energies. Here, we introduce an x-ray quantum memory protocol that utilizes mechanically driven nuclear resonant 57Fe absorbers to form a comb structure in the nuclear absorption spectrum by using the Doppler effect. This room-temperature nuclear frequency comb enables us to control the waveform of x-ray photon wave packets to a high level of accuracy and fidelity using solely mechanical motions. This tunable, robust, and highly flexible system offers a versatile platform for a compact solid-state quantum memory at room temperature for hard x-rays. [ABSTRACT FROM AUTHOR]

Published

2024