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28 results on '"Hen, Amir"'

1. Realization of robust quantum noise characterization in the presence of coherent errors

Author

Penshin, Pavel, Amro, Tamara, Zabelotsky, Ty, Abramovich, Amir, Pandit, Tanmoy, 'Attar, K. I. O Ben, Hen, Amir, Uzdin, Raam, and Bar-Gill, Nir

Subjects
Quantum Physics
Abstract

Complex quantum systems and their various applications are susceptible to noise of coherent and incoherent nature. Characterization of noise and its sources is an open, key challenge in quantum technology applications, especially in terms of distinguishing between inherent incoherent noise and systematic coherent errors. In this paper, we study a scheme of repeated sequential measurements that enables the characterization of incoherent errors by reducing the effects of coherent errors. We demonstrate this approach using a coherently controlled Nitrogen Vacancy in diamond, coupled to both a natural nuclear spin bath (non-Markovian) and to experimentally controlled relaxation through an optical pumping process (nearly Markovian). Our results show mitigation of coherent errors both for Markovian and Non-Markovian incoherent noise profiles. We apply this scheme to the estimation of the dephasing time ($T_2^*$) due to incoherent noise. We observe an improved robustness against coherent errors in the estimation of dephasing time ($T_2^*$) compared to the standard (Ramsey) measurement.

Published
2024

2. Modified Split Ring Resonators for Efficient and Homogeneous Microwave Control of Large Volume Spin Ensembles

Author

Ben-Shalom, Yachel, Hen, Amir, and Bar-Gill, Nir

Subjects
Quantum Physics
Abstract

Quantum sensing using local defects in solid-state systems has gained significant attention over the past several years, with impressive results demonstrated both in Academia and in Industry. Specifically, employing large volume and high density ensembles for beyond state-of-the-art sensitives is of clear interest. A major obstacle for achieving such record sensitivities is associated with the need to realize strong, homogeneous driving of the sensor defects. Here we focus on high-frequency microwave sensing using nitrogen-vacancy centers in diamond, and develop a modified split-ring resonator design to address this issue. We demonstrate enhanced drive strengths and homogeneities over large volumes compared to previous results, with prospects for enabling the desired sensitivities. We reach Rabi frequencies of up to 18 [MHz] with an efficiency ratio of 2 [$Gauss/\sqrt{Watt}$], along with an inhomogeneity of $<0.7\%$ in a volume of $0.1\:mm^3$.

Published
2023

4. Probing Magnetic Sublattices in Multiferroic Ho$_{0.5}$Nd$_{0.5}$Fe$_{3}$(BO$_{3}$)$_{4}$ Single Crystal using X-ray Magnetic Circular Dichroism

Author

Platunov, Mikhail, Kazak, Natalia, Dudnikov, Viacheslav, Wilhelm, Fabrice, Hen, Amir, Diadkin, Vadim, Dovgaliuk, Iurii, Bosak, Alexey, Temerov, Vladislav, Gudim, Irina, Knyazev, Yurii, Gavrilkin, Sergey, Rogalev, Andrei, and Ovchinnikov, Sergei

Subjects
Condensed Matter - Materials Science
Abstract

Using element-specific X-ray magnetic circular dichroism (XMCD) technique we have studied different magnetic sublattices in a multiferroic Ho$_{0.5}$Nd$_{0.5}$Fe$_{3}$(BO$_{3}$)$_{4}$ single crystal. The XMCD measurements at the \emph{L}$_{2,3}$-edges of Ho and Nd, and at the Fe \emph{K}-edge have been performed at \emph{T}=2~K under a magnetic field up to 17~T applied along the trigonal \emph{c}-axis as well as in the basal \emph{ab}-plane. All three magnetic sublattices are shown to undergo a spin-reorientation transition under magnetic field applied along the \emph{c}-axis. On the contrary, when magnetic field is applied in the \emph{ab}-plane only the holmium atoms exhibit a magnetization jump. Thus, the element-specific magnetization curves revealed the Ho sublattice to be much stronger coupled to the Fe one than the Nd sublattice. The results demonstrate that the Ho$^{3+}$ subsystem plays even more dominant role in magnetic behavior of Ho$_{0.5}$Nd$_{0.5}$Fe$_{3}$(BO$_{3}$)$_{4}$ crystal than in pure HoFe$_{3}$(BO$_{3}$)$_{4}$ crystal.

Published
2018

7. Modified Split-Ring Resonators for Efficient and Homogeneous Microwave Control of Large Volume Spin Ensembles

Author

Ben-Shalom, Yachel, Hen, Amir, and Bar-Gill, Nir

Abstract

Quantum sensing using local defects in solid-state systems has gained significant attention over the past several years, with impressive results demonstrated both in academia and in industry. Specifically, using large volume and high-density ensembles for beyond state-of-the-art sensitives is of clear interest. A major obstacle for achieving such record sensitivities is associated with the need to realize strong, homogeneous driving of the sensor defects. Here, we focus on high-frequency microwave sensing using nitrogen-vacancy (NV) centers in diamond and develop a modified split-ring resonator design to address this issue. We demonstrate enhanced drive strengths and homogeneities over large volumes compared with previous results, with prospects for enabling the desired sensitivities. We reach Rabi frequencies of up to 18-MHz with an efficiency ratio of $2~\text {Gauss}/\sqrt {\text {Watt}}$ , along with an inhomogeneity of < 0.7% in a volume of 0.1 mm3. This structure also has a narrow form factor that allows for efficient optical coupling and fluorescence collection.

Published
2024
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9. Pinned orbital moments in uncompensated antiferromagnetic Co doped ZnO.

Author

Buchner, Martin, Henne, Bastian, Ney, Verena, Lumetzberger, Julia, Wilhelm, Fabrice, Rogalev, Andrei, Hen, Amir, and Ney, Andreas

Subjects
ORBITAL momentum operators, ANTIFERROMAGNETIC materials, DOPING agents (Chemistry), COBALT, ZINC oxide, ABSORPTION
Abstract

Low temperature Co K-edge x-ray magnetic circular dichroism spectra at different field cooling conditions were recorded to study the imprinted magnetization in antiferromagnetic (AFM) Co doped ZnO (Co:ZnO) films which manifests itself in a vertical exchange bias effect. Co:ZnO films with 50% and 60% doping concentrations were investigated to provide a high degree of pinned magnetic moments. The measurements reveal a change at the main absorption energy of the spectra, while the signal obtained at the pre-edge stays unaffected by the cooling conditions. Therefore, the pinned uncompensated AFM moments, resulting in an imprinted magnetization, are predominantly of orbital character and are independent of ferromagnetic layers. [ABSTRACT FROM AUTHOR]

Published
2018
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11. X-ray Natural Circular Dichroism Imaging of Multiferroic Crystals

Author

Platunov, Mikhail S., primary, Gudim, Irina A., additional, Ovchinnikova, Elena N., additional, Kozlovskaya, Ksenia A., additional, Wilhelm, Fabrice, additional, Rogalev, Andrei, additional, Hen, Amir, additional, Ivanov, Vsevolod Y., additional, Mukhin, Alexander A., additional, and Dmitrienko, Vladimir E., additional

Published
2021
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12. A GHz chirped amplitude-modulated laser for high-contrast plasma gratings

Author

Valdman, Michael, Hen, Amir, and Marcus, Gilad

Abstract

AbstractThe generation and control of large amplitude plasma gratings and other plasma structures is of paramount importance for the realization of plasma photonics. Autoresonant excitation of such structures by means of chirped amplitude-modulated lasers has been recently discussed and analyzed theoretically. Here we discuss the parameter space for the realization of such a scheme and describe the laser system that was built towards this goal. We also expand our earlier theoretical study to account for the more realistic case of a moderately focused laser beam, instead of the simplified plane wave approximation.

Published
2024
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14. Element selective magnetism in Ho0.5Nd0.5Fe3(BO3)4 single crystal probed with hard X-ray magnetic circular dichroism

Author

Platunov, Mikhail, primary, Kazak, Natalia, additional, Dudnikov, Viacheslav, additional, Temerov, Vladislav, additional, Gudim, Irina, additional, Knyazev, Yurii, additional, Gavrilkin, Sergey, additional, Dyadkin, Vadim, additional, Dovgaliuk, Iurii, additional, Chernyshov, Dmitry, additional, Hen, Amir, additional, Wilhelm, Fabrice, additional, Rogalev, Andrei, additional, and Ovchinnikov, Sergei, additional

Published
2019
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16. Mössbauer spectroscopy, magnetization, magnetic susceptibility, and low temperature heat capacity of α-Na2NpO4

Author

Smith, A.L. (author), Hen, Amir (author), Magnani, Nicola (author), Sanchez, Jean Pierre (author), Colineau, Eric (author), Griveau, Jean Christophe (author), Raison, Philippe E. (author), Caciuffo, Roberto (author), Konings, R. (author), Cheetham, Anthony K. (author), Smith, A.L. (author), Hen, Amir (author), Magnani, Nicola (author), Sanchez, Jean Pierre (author), Colineau, Eric (author), Griveau, Jean Christophe (author), Raison, Philippe E. (author), Caciuffo, Roberto (author), Konings, R. (author), and Cheetham, Anthony K. (author)

Abstract

The physical and chemical properties at low temperatures of hexavalent disodium neptunate α-Na2NpO4 are investigated for the first time in this work using Mössbauer spectroscopy, magnetization, magnetic susceptibility, and heat capacity measurements. The Np(VI) valence state is confirmed by the isomer shift value of the Mössbauer spectra, and the local structural environment around the neptunium cation is related to the fitted quadrupole coupling constant and asymmetry parameters. Moreover, magnetic hyperfine splitting is reported below 12.5 K, which could indicate magnetic ordering at this temperature. This interpretation is further substantiated by the existence of a λ-peak at 12.5 K in the heat capacity curve, which is shifted to lower temperatures with the application of a magnetic field, suggesting antiferromagnetic ordering. However, the absence of any anomaly in the magnetization and magnetic susceptibility data shows that the observed transition is more intricate. In addition, the heat capacity measurements suggest the existence of a Schottky-type anomaly above 15 K associated with a low-lying electronic doublet found about 60 cm-1 above the ground state doublet. The possibility of a quadrupolar transition associated with a ground state pseudoquartet is thereafter discussed. The present results finally bring new insights into the complex magnetic and electronic peculiarities of α-Na2NpO4., RST/Reactor Physics and Nuclear Materials

Published
2016
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18. ChemInform Abstract: X-Ray Diffraction, Moessbauer Spectroscopy, Magnetic Susceptibility, and Specific Heat Investigations of Na4NpO5and Na5NpO6.

Author

Smith, Anna L., primary, Hen, Amir, additional, Raison, Philippe E., additional, Colineau, Eric, additional, Griveau, Jean-Christophe, additional, Magnani, Nicola, additional, Sanchez, Jean-Pierre, additional, Konings, Rudy J. M., additional, Caciuffo, Roberto, additional, and Cheetham, Anthony K., additional

Published
2015
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22. X-ray Diffraction, Mössbauer Spectroscopy, Magnetic Susceptibility, and Specific Heat Investigations of Na4NpO5 and Na5NpO6.

Author

Smith, Anna L., Hen, Amir, Raison, Philippe E., Colineau, Eric, Griveau, Jean-Christophe, Magnani, Nicola, Sanchez, Jean-Pierre, Konings, Rudy J. M., Caciuffo, Roberto, and Cheetham, Anthony K.

Subjects
*X-ray diffraction, *MOSSBAUER spectroscopy, *MAGNETIC susceptibility, *SPECIFIC heat, *SODIUM compounds, *ISOMERS
Abstract

The hexavalent and heptavalent sodium neptunate compounds Na4NpO5 and Na5NpO6 have been investigated using X-ray powder diffraction, Mössbauer spectroscopy, magnetic susceptibility, and specific heat measurements. Na4NpO5 has tetragonal symmetry in the space group I4/m, while Na5NpO6 adopts a monoclinic unit cell in the space group C2/m. Both structures have been refined for the first time using the Rietveld method. The valence states of neptunium in these two compounds, i.e., Np(VI) and Np(VII), respectively, have been confirmed by the isomer shift values of their Mössbauer spectra. The local structural properties obtained from the X-ray refinements have also been related to the quadrupole coupling constants and asymmetry parameters determined from the Mössbauer studies. The absence of magnetic ordering has been confirmed for Na4NpO5. However, specific heat measurements at low temperatures have suggested the existence of a Schottky-type anomaly at around 7 K in this Np(VI) phase. [ABSTRACT FROM AUTHOR]

Published
2015
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24. High pressure neutron powder diffraction study of FeCr with and without hydrogen exposure.

Author

Rivin, Oleg, Broide, Amir, Maskova, Silvie, Lucas, Matthew, Hen, Amir, Orion, Itzhak, Salhov, Shai, Shandalov, Michael, Moreira Dos Santos, Antonio, Molaison, Jamie, Chen, Zhiqiang, and Halevy, Itzhak

Subjects
NEUTRON diffraction, HIGH pressure (Science), HYDROGEN, IRON compounds, PHASE transitions, MAGNETIC structure
Abstract

The crystal structure of FeCr(x = 0, 0.2 and 0.4) materials, with and without exposure to Hydrogen, is investigated using neutron powder diffraction under the applied external high-pressure. Above a certain applied pressure, P, a structural phase transition, from cubic to hexagonal symmetry, is observed, in agreement with previous x-ray diffraction results. The P values exhibit an increase with x increase. The possibility for an evolution of a magnetic structure with pressure, x and Hydrogen exposure, is examined. Finally, a broadening of the angular profile of the (200) reflection (cubic phase) is identified and reported. [ABSTRACT FROM AUTHOR]

Published
2015
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25. ChemInform Abstract: X-Ray Diffraction, Moessbauer Spectroscopy, Magnetic Susceptibility, and Specific Heat Investigations of Na4NpO5 and Na5NpO6.

Author

Smith, Anna L., Hen, Amir, Raison, Philippe E., Colineau, Eric, Griveau, Jean‐Christophe, Magnani, Nicola, Sanchez, Jean‐Pierre, Konings, Rudy J. M., Caciuffo, Roberto, and Cheetham, Anthony K.

Subjects
*X-ray diffraction, *RIETVELD refinement, *MOESSBAUER spectrometers, *MAGNETIC susceptibility, *SPECIFIC heat measurement
Abstract

The structures of the title compounds are determined by Rietveld refinement of powder XRD data. [ABSTRACT FROM AUTHOR]

Published
2015
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27. Element selective magnetism in [formula omitted] single crystal probed with hard X-ray magnetic circular dichroism.

Author

Platunov, Mikhail, Kazak, Natalia, Dudnikov, Viacheslav, Temerov, Vladislav, Gudim, Irina, Knyazev, Yurii, Gavrilkin, Sergey, Dyadkin, Vadim, Dovgaliuk, Iurii, Chernyshov, Dmitry, Hen, Amir, Wilhelm, Fabrice, Rogalev, Andrei, and Ovchinnikov, Sergei

Subjects
*MAGNETISM, *SINGLE crystals, *MAGNETIC transitions, *CIRCULAR dichroism, *X-ray absorption
Abstract

Abstract We present a study of a Ho 0.5 Nd 0.5 Fe 3 (BO 3) 4 single crystal aiming at understanding the roles of each magnetic sublattices in magnetic transitions at low temperatures. The crystal structure is determined to have the R 32 symmetry in whole studied temperature range but the crystal appears to be racemic. Element selective magnetic properties studied with X-ray magnetic circular dichroism at the L 2 , 3 -edges of Ho and Nd, and at the Fe K -edge at T = 3 K under magnetic fields of ±17 T are compared with the results of macroscopic magnetization measurements in pure and substituted crystals. All three magnetic sublattices are shown to be strongly coupled and to undergo a spin-reorientation transition when magnetic field is applied along the trigonal c -axis. On the contrary, when magnetic field is applied in the ab -plane only the holmium atoms exhibit a sizeable magnetization jump. This result allows us to conclude that the spin-flop transitions observed in macroscopic magnetization curves and associated anomalies of electric polarization are due to the Ho3+ magnetic moment reorientation. [ABSTRACT FROM AUTHOR]

Published
2019
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28. Mössbauer spectroscopy, magnetization, magnetic susceptibility, and low temperature heat capacity of α-Na₂NpO₄.

Author

Smith AL, Hen A, Magnani N, Sanchez JP, Colineau E, Griveau JC, Raison PE, Caciuffo R, Konings RJ, and Cheetham AK

Abstract

The physical and chemical properties at low temperatures of hexavalent disodium neptunate α-Na2NpO4 are investigated for the first time in this work using Mössbauer spectroscopy, magnetization, magnetic susceptibility, and heat capacity measurements. The Np(VI) valence state is confirmed by the isomer shift value of the Mössbauer spectra, and the local structural environment around the neptunium cation is related to the fitted quadrupole coupling constant and asymmetry parameters. Moreover, magnetic hyperfine splitting is reported below 12.5 K, which could indicate magnetic ordering at this temperature. This interpretation is further substantiated by the existence of a λ-peak at 12.5 K in the heat capacity curve, which is shifted to lower temperatures with the application of a magnetic field, suggesting antiferromagnetic ordering. However, the absence of any anomaly in the magnetization and magnetic susceptibility data shows that the observed transition is more intricate. In addition, the heat capacity measurements suggest the existence of a Schottky-type anomaly above 15 K associated with a low-lying electronic doublet found about 60 cm(-1) above the ground state doublet. The possibility of a quadrupolar transition associated with a ground state pseudoquartet is thereafter discussed. The present results finally bring new insights into the complex magnetic and electronic peculiarities of α-Na2NpO4.

Published
2016
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