Parametric Excitation of an Optically Silent Goldstone-Like Phonon Mode

Dominik M. Juraschek; Quintin N. Meier; Prineha Narang

doi:10.1103/PhysRevLett.124.117401

Parametric Excitation of an Optically Silent Goldstone-Like Phonon Mode

Dominik M. Juraschek, Quintin N. Meier, Prineha Narang

Research output: Contribution to journal › Article › peer-review

Abstract

It has recently been indicated that the hexagonal manganites exhibit Higgs- and Goldstone-like phonon modes that modulate the amplitude and phase of their primary order parameter. Here, we describe a mechanism by which a silent Goldstone-like phonon mode can be coherently excited, which is based on nonlinear coupling to an infrared-active Higgs-like phonon mode. Using a combination of first-principles calculations and phenomenological modeling, we describe the coupled Higgs-Goldstone dynamics in response to the excitation with a terahertz pulse. Besides theoretically demonstrating coherent control of crystallographic Higgs and Goldstone excitations, we show that the previously inaccessible silent phonon modes can be excited coherently with this mechanism.

Original language	English
Article number	117401
Journal	Physical Review Letters
Volume	124
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevLett.124.117401
State	Published - 20 Mar 2020
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.124.117401

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title = "Parametric Excitation of an Optically Silent Goldstone-Like Phonon Mode",

abstract = "It has recently been indicated that the hexagonal manganites exhibit Higgs- and Goldstone-like phonon modes that modulate the amplitude and phase of their primary order parameter. Here, we describe a mechanism by which a silent Goldstone-like phonon mode can be coherently excited, which is based on nonlinear coupling to an infrared-active Higgs-like phonon mode. Using a combination of first-principles calculations and phenomenological modeling, we describe the coupled Higgs-Goldstone dynamics in response to the excitation with a terahertz pulse. Besides theoretically demonstrating coherent control of crystallographic Higgs and Goldstone excitations, we show that the previously inaccessible silent phonon modes can be excited coherently with this mechanism.",

author = "Juraschek, \{Dominik M.\} and Meier, \{Quintin N.\} and Prineha Narang",

note = "Publisher Copyright: {\textcopyright} 2020 authors. Published by the American Physical Society.",

year = "2020",

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doi = "10.1103/PhysRevLett.124.117401",

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AU - Juraschek, Dominik M.

AU - Meier, Quintin N.

AU - Narang, Prineha

PY - 2020/3/20

Y1 - 2020/3/20

N2 - It has recently been indicated that the hexagonal manganites exhibit Higgs- and Goldstone-like phonon modes that modulate the amplitude and phase of their primary order parameter. Here, we describe a mechanism by which a silent Goldstone-like phonon mode can be coherently excited, which is based on nonlinear coupling to an infrared-active Higgs-like phonon mode. Using a combination of first-principles calculations and phenomenological modeling, we describe the coupled Higgs-Goldstone dynamics in response to the excitation with a terahertz pulse. Besides theoretically demonstrating coherent control of crystallographic Higgs and Goldstone excitations, we show that the previously inaccessible silent phonon modes can be excited coherently with this mechanism.

AB - It has recently been indicated that the hexagonal manganites exhibit Higgs- and Goldstone-like phonon modes that modulate the amplitude and phase of their primary order parameter. Here, we describe a mechanism by which a silent Goldstone-like phonon mode can be coherently excited, which is based on nonlinear coupling to an infrared-active Higgs-like phonon mode. Using a combination of first-principles calculations and phenomenological modeling, we describe the coupled Higgs-Goldstone dynamics in response to the excitation with a terahertz pulse. Besides theoretically demonstrating coherent control of crystallographic Higgs and Goldstone excitations, we show that the previously inaccessible silent phonon modes can be excited coherently with this mechanism.

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DO - 10.1103/PhysRevLett.124.117401

M3 - مقالة

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VL - 124

JO - Physical Review Letters

JF - Physical Review Letters

IS - 11

M1 - 117401

ER -

Parametric Excitation of an Optically Silent Goldstone-Like Phonon Mode

Abstract

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