Plasmon Intrinsic Dipole Moment
ORAL
Abstract
Plasmons are usually described by macroscopic objects such as electric fields and currents. They are nevertheless quantum objects with internal structure. We show [1] this can include an intrinsic, static dipole moment that is tied to the quantum geometry of the Hilbert space in which the plasmon states reside. This quantum geometric dipole offers a unique handle for controlling plasmon dynamics, via density modulation and electric fields. We demonstrate that a nonvanishing plasmon quantum geometric dipole gives rise to nonreciprocal skew scattering for plasmons from impurities in a valley dependent way. This skew scattering can be directly observed in near field optical microscopy.
*L.B.: PGC2018-097018-B-I00 (MICIN/AEI/FEDER, EU). HAF and JC: NSF Grant Nos. DMR-1914451 and ECCS-1936406.; US-Israel Binational Science Foundation (Grant Nos. 2016130 and 2018726); Research Corporation for Science Advancement.
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Publication: [1] "Quantum Internal Structure of Plasmons," Phys. Rev. Lett. (to appear); arXiv:2109.01006.
Presenters
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Jinlyu Cao
- Indiana University Bloomington