Electron–Phonon and Spin–Lattice Coupling in Atomically Thin Layers of MnBi2Te4
MnBi2Te4 represents a new class of magnetic topological insulators in which novel quantum phases emerge at temperatures higher than those found in magnetically doped thin films. Here, we investigate how couplings between electron, spin, and lattice are manifested in the phonon spectra of few-septupl...
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| Published in | Nano letters Vol. 21; no. 14; pp. 6139 - 6145 |
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| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Chemical Society
28.07.2021
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| Subjects | |
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| Abstract | MnBi2Te4 represents a new class of magnetic topological insulators in which novel quantum phases emerge at temperatures higher than those found in magnetically doped thin films. Here, we investigate how couplings between electron, spin, and lattice are manifested in the phonon spectra of few-septuple-layer thick MnBi2Te4. After categorizing phonon modes by their symmetries, we study the systematic changes in frequency, line width, and line shape of a spectrally isolated A1g mode. The electron–phonon coupling increases in thinner flakes as manifested in a broader phonon line width, which is likely due to changes of the electron density of states. In 4- and 5-septuple thick samples, the onset of magnetic order below the Néel temperature is concurrent with a transition to an insulating state. We observe signatures of a reduced electron–phonon scattering across this transition as reflected in the reduced Fano parameter. Finally, spin–lattice coupling is measured and modeled from temperature-dependent phonon frequency. |
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| AbstractList | MnBi2Te4 represents a new class of magnetic topological insulators in which novel quantum phases emerge at temperatures higher than those found in magnetically doped thin films. Here in this paper, we investigate how couplings between electron, spin, and lattice are manifested in the phonon spectra of few-septuple-layer thick MnBi2Te4. After categorizing phonon modes by their symmetries, we study the systematic changes in frequency, line width, and line shape of a spectrally isolated A1g mode. The electron–phonon coupling increases in thinner flakes as manifested in a broader phonon line width, which is likely due to changes of the electron density of states. In 4- and 5-septuple thick samples, the onset of magnetic order below the Néel temperature is concurrent with a transition to an insulating state. We observe signatures of a reduced electron–phonon scattering across this transition as reflected in the reduced Fano parameter. Finally, spin–lattice coupling is measured and modeled from temperature-dependent phonon frequency. MnBi2Te4 represents a new class of magnetic topological insulators in which novel quantum phases emerge at temperatures higher than those found in magnetically doped thin films. Here, we investigate how couplings between electron, spin, and lattice are manifested in the phonon spectra of few-septuple-layer thick MnBi2Te4. After categorizing phonon modes by their symmetries, we study the systematic changes in frequency, line width, and line shape of a spectrally isolated A1g mode. The electron-phonon coupling increases in thinner flakes as manifested in a broader phonon line width, which is likely due to changes of the electron density of states. In 4- and 5-septuple thick samples, the onset of magnetic order below the Néel temperature is concurrent with a transition to an insulating state. We observe signatures of a reduced electron-phonon scattering across this transition as reflected in the reduced Fano parameter. Finally, spin-lattice coupling is measured and modeled from temperature-dependent phonon frequency.MnBi2Te4 represents a new class of magnetic topological insulators in which novel quantum phases emerge at temperatures higher than those found in magnetically doped thin films. Here, we investigate how couplings between electron, spin, and lattice are manifested in the phonon spectra of few-septuple-layer thick MnBi2Te4. After categorizing phonon modes by their symmetries, we study the systematic changes in frequency, line width, and line shape of a spectrally isolated A1g mode. The electron-phonon coupling increases in thinner flakes as manifested in a broader phonon line width, which is likely due to changes of the electron density of states. In 4- and 5-septuple thick samples, the onset of magnetic order below the Néel temperature is concurrent with a transition to an insulating state. We observe signatures of a reduced electron-phonon scattering across this transition as reflected in the reduced Fano parameter. Finally, spin-lattice coupling is measured and modeled from temperature-dependent phonon frequency. MnBi2Te4 represents a new class of magnetic topological insulators in which novel quantum phases emerge at temperatures higher than those found in magnetically doped thin films. Here, we investigate how couplings between electron, spin, and lattice are manifested in the phonon spectra of few-septuple-layer thick MnBi2Te4. After categorizing phonon modes by their symmetries, we study the systematic changes in frequency, line width, and line shape of a spectrally isolated A1g mode. The electron–phonon coupling increases in thinner flakes as manifested in a broader phonon line width, which is likely due to changes of the electron density of states. In 4- and 5-septuple thick samples, the onset of magnetic order below the Néel temperature is concurrent with a transition to an insulating state. We observe signatures of a reduced electron–phonon scattering across this transition as reflected in the reduced Fano parameter. Finally, spin–lattice coupling is measured and modeled from temperature-dependent phonon frequency. |
| Author | Ye, Zhipeng He, Rui Lujan, David Chang, Liang-Juan Nunley, T. Nathan Leonardo, Aritz Li, Xiaoqin Lee, Shang-Fan Rodriguez-Vega, Martin Choe, Jeongheon Quan, Jiamin Yan, Jiaqiang Fiete, Gregory A |
| AuthorAffiliation | Center for Dynamics and Control of Materials Theoretical Division Department of Physics Massachusetts Institute of Technology Department of Physics, Center of Complex Quantum Systems The University of Texas at Austin Texas Materials Institute University of the Basque Country UPV/EHU University of Texas at Austin Department of Electrical and Computer Engineering Donostia International Physics Center Institute of Physics Materials Science and Technology Division |
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| Author_xml | – sequence: 1 givenname: Jeongheon surname: Choe fullname: Choe, Jeongheon organization: The University of Texas at Austin – sequence: 2 givenname: David surname: Lujan fullname: Lujan, David organization: The University of Texas at Austin – sequence: 3 givenname: Martin orcidid: 0000-0001-8929-6546 surname: Rodriguez-Vega fullname: Rodriguez-Vega, Martin email: rodriguezvega@lanl.gov organization: Theoretical Division – sequence: 4 givenname: Zhipeng surname: Ye fullname: Ye, Zhipeng organization: Department of Electrical and Computer Engineering – sequence: 5 givenname: Aritz surname: Leonardo fullname: Leonardo, Aritz organization: University of the Basque Country UPV/EHU – sequence: 6 givenname: Jiamin surname: Quan fullname: Quan, Jiamin organization: Department of Physics, Center of Complex Quantum Systems – sequence: 7 givenname: T. Nathan surname: Nunley fullname: Nunley, T. Nathan organization: Department of Physics, Center of Complex Quantum Systems – sequence: 8 givenname: Liang-Juan surname: Chang fullname: Chang, Liang-Juan organization: Institute of Physics – sequence: 9 givenname: Shang-Fan orcidid: 0000-0001-5899-7200 surname: Lee fullname: Lee, Shang-Fan organization: Institute of Physics – sequence: 10 givenname: Jiaqiang surname: Yan fullname: Yan, Jiaqiang organization: Materials Science and Technology Division – sequence: 11 givenname: Gregory A surname: Fiete fullname: Fiete, Gregory A organization: Massachusetts Institute of Technology – sequence: 12 givenname: Rui orcidid: 0000-0002-2368-7269 surname: He fullname: He, Rui email: rui.he@ttu.edu organization: Department of Electrical and Computer Engineering – sequence: 13 givenname: Xiaoqin surname: Li fullname: Li, Xiaoqin email: elaineli@physics.utexas.edu organization: University of Texas at Austin |
| BackLink | https://www.osti.gov/biblio/1819515$$D View this record in Osti.gov |
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| SubjectTerms | electron−phonon interaction magnetic materials MATERIALS SCIENCE Raman spectroscopy spin−lattice coupling topological materials van der Waals materials |
| Title | Electron–Phonon and Spin–Lattice Coupling in Atomically Thin Layers of MnBi2Te4 |
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