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1. Elastodynamically induced spin current in a coupled spin-lattice system

   We investigate theoretically the lattice motion-induced DC spin current in a coupled spin-lattice system. The XY spin-Peierls model is adopted to...

   Yonghong Yan, Hui Zhao in The European Physical Journal B

   Article 18 August 2023
   

2. Possibility of Measurement of the Three-Spin Dipolar Contribution to Nuclear Spin–Lattice Relaxation in Solids by the Conventional Pulse NMR Technique

   It is shown that the contribution of the three-spin non-secular dipolar interactions of nuclei to their spin–lattice relaxation in solids can be...

   A. E. Mefed in Applied Magnetic Resonance

   Article 02 September 2022
   

3. Anisotropic Spin–Lattice and Spin–Spin Relaxations in Hydrogen Molecules Trapped in Non-Spherical Nanocavities

   We report on ¹ H NMR measurements of spin–lattice and spin–spin relaxation times in hydrogen molecules confined in nanocavities of the a-Si–H thin...

   Alexander M. Panich, Gregory B. Furman, ... Pere Roca i Cabarrocas in Applied Magnetic Resonance

   Article 10 December 2022
   

4. Spin Diffusion and Spin–Lattice Relaxation in the Zeeman and Dipolar Systems

   Relaxation in the Zeeman and dipolar spin systems is considered. To shorten the spin–lattice relaxation time in the samples containing paramagnetic...

   G. B. Furman, S. D. Goren, ... V. L. Sokolovsky in Applied Magnetic Resonance

   Article 25 May 2021
   

5. Thermoelectric and Spin–Lattice Coupling in a MnCr2S4 Ferrimagnetic Spinel

   We have investigated the electronic structure, thermoelectric properties of MnCr2S4 using the Full Potential Augmented Plane Waves (FPLAPW) based on...

   Rachid Masrour in Electronic, Magnetic, and Thermoelectric Properties of Spinel Ferrite Systems

   Chapter 2023
   

6. Three-Spin Dipolar Contribution to Nuclear Spin–Lattice Relaxation in Solids in the Doubly Rotating Frame: Practical Formulas

   A. E. Mefed in Applied Magnetic Resonance

   Article 10 June 2021
   

7. Unconventional charge order and superconductivity in kagome-lattice systems as seen by muon-spin rotation

   Kagome lattices are intriguing and rich platforms for studying the intertwining of topology, electron correlation, and magnetism. These materials...

   Z. Guguchia, R. Khasanov, H. Luetkens in npj Quantum Materials

   Article Open access 18 August 2023
   

8. Impact of γ-Irradiation on Separation of Nuclear Spin-Relaxation Mechanisms Under Magnetic Saturation in a NaF Crystal

   Studies were carried out on the effect of additional continuous magnetic saturation of the NMR line on nuclear spin relaxation in a NaF single...

   A. M. Rochev, V. M. Mikushev, E. V. Charnaya in Applied Magnetic Resonance

   Article 05 July 2024
   

9. Spin–orbital liquid state and liquid–gas metamagnetic transition on a pyrochlore lattice

   Crystal structures with degenerate electronic orbitals are unstable towards lattice distortions that lift the degeneracy. Although these Jahn–Teller...

   Nan Tang, Yulia Gritsenko, ... Satoru Nakatsuji in Nature Physics

   Article 01 December 2022
   

10. Phonon contribution to nuclear spin diffusion in ruby crystal estimated by lattice dynamics calculations

    Abstract

    Lattice dynamics calculations can evaluate the effect of lattice vibrations on the spin diffusion process in ruby crystal ...

    Ali Chandoul in The European Physical Journal Plus

    Article 05 May 2022
    

11. Dynamics of Guest Water Molecules in Pillared Mordenite Studied by ¹H NMR Relaxation

    The dynamics of H ₂ O molecules confined in mesopores of about 3.4 nm in size, formed by amorphous SiO ₂ pillars separating 2D mordenite nanolayers, was...

    Marina G. Shelyapina, Denis Yu. Nefedov, ... Sergio Fuentes in Applied Magnetic Resonance

    Article 08 August 2023
    

12. Emergence of the spin polarized domains in the kagome lattice Heisenberg antiferromagnet Zn-barlowite (Zn_0.95Cu_0.05)Cu₃(OD)₆FBr

    Kagome lattice Heisenberg antiferromagnets are known to be highly sensitive to perturbations caused by the structural disorder. NMR is a local probe...

    Weishi Yuan, Jiaming Wang, ... Takashi Imai in npj Quantum Materials

    Article Open access 27 December 2022
    

13. Multicomponents of Spin–Spin Relaxation, Anisotropy of the Echo Decay, and Nanoporous Sample Structure

    We have experimentally and theoretically investigated multicomponent ¹ H nuclear magnetic resonance (NMR) echo decays in a-Si:H films containing...

    Theodore Aptekarev, Gregory Furman, ... Yang **a in Applied Magnetic Resonance

    Article 24 June 2023
    

14. Electron Spin Relaxation Rates of Radicals in Irradiated Boron Oxides

    The boron–oxygen hole center (BOHC) that is formed by irradiation of boron oxides has previously been characterized extensively by continuous wave...

    Thacien Ngendahimana, Whylder Moore, ... Gareth R. Eaton in Applied Magnetic Resonance

    Article 27 November 2022
    

15. Spectrum Intensity, Saturation, Spin-Lattice Relaxation

    By using Fermi’s golden rule, the expression for the absorption signal and the intensity of the resonance lines at thermal equilibrium are derived,...

    Patrick Bertrand in Electron Paramagnetic Resonance Spectroscopy

    Chapter 2020
    

16. Longitudinal Relaxation of Nuclear Magnetization in Rubber Solutions: Polyisoprene Protons

    Longitudinal (spin-lattice) relaxation times T ₁ of protons are measured selectively (for various structural groups) at NMR frequency 700 MHz in a...

    N. Makhiyanova, S. V. Efimov in Journal of Applied Spectroscopy

    Article 26 January 2023

17. Spin- and Energy Relaxation of Hot Electrons at GaAs Surfaces

    The mechanisms for spin relaxation in semiconductors are reviewed, and the mechanism prevalent in p-doped semiconductors, namely spin relaxation due...

    Torsten Ohms, Kevin Hiebbner, ... Martin Aeschlimann in Spin Dynamics in Confined Magnetic Structures III

    Chapter
    

18. Relaxation Dynamics of Free Carriers

    The generation of electron-hole pairs by optical absorption of photons from an excitation source like a pulsed or cw laser leads to a non-equilibrium...

    Heinz Kalt, Claus F. Klingshirn in Semiconductor Optics 2

    Chapter 2024
    

19. Spin-Lattice Relaxation Rate and Optical Conductivity of Quantum Spin Liquid

    In this chapter, we present the spin-lattice relaxation rateSpin-lattice relaxation rate of quantum spin liquidQuantum spin liquid. Also, we analyze...

    Miron Amusia, Vasily Shaginyan in Strongly Correlated Fermi Systems

    Chapter 2020
    

20. Hyperfine effects and electron spin relaxation of ⁵¹V⁴⁺ doped into scandium orthosilicate Sc₂²⁸SiO₅: CW and pulsed X-band electron spin resonance studies

    The scandium orthosilicate monocrystal Sc ₂ ²⁸ SiO ₅ (SSO) doped with ⁵¹ V isotope in small concentrations (0.005% at.) was studied. We used continuous...

    R. F. Likerov, R. M. Eremina, ... S. A. Kutovoi in Applied Magnetic Resonance

    Article 30 December 2022