期刊
JOURNAL OF PHYSICAL CHEMISTRY LETTERS
卷 12, 期 21, 页码 5178-5184出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpclett.1c01172
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资金
- Science Challenge Project [TZ2018001]
- National Natural Science Foundation of China [12072331]
- Dean Foundation of China Academy of Engineering Physics [YZJJLX2017001]
Research demonstrates that nonlinear phononics can be achieved through the electronic route, in addition to introducing nonlinearity via ionic Raman scattering. By using coherent phonon spectroscopy with a pump energy larger than the band gap in layered ReSe2, nonlinear coupling between Raman-active phonons was observed.
Nonlinear phononics has recently been demonstrated as a viable approach for dynamically modifying materials' properties. Conventionally, nonlinearity in the lattice dynamics is introduced via the ionic Raman scattering, in which infrared-active phonons (i.e., coherent ionic vibrations) serve as the intermediate state for transferring energy to Raman-active phonons. Here we report that it is also possible to achieve phononic nonlinearity through the electronic route, a process that relies on excited electronic states to initiate energy exchange among Raman-active phonons. Taking layered ReSe2 as a model system, we use coherent phonon spectroscopy with a pump energy larger than the band gap to follow lattice dynamics and observe the nonlinear coupling between both Raman-active intralayer atomic oscillations and interlayer breathing modes. In addition, we show that such nonlinear phononic coupling is highly dependent on the environment temperature. This work, which demonstrates a different and novel mechanism, may enrich the toolkit for controlling material properties by means of nonlinear phononics.
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