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Main Authors: Li, Zi-Long, Wan, Yuan
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2306.14220
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author Li, Zi-Long
Wan, Yuan
author_facet Li, Zi-Long
Wan, Yuan
contents We study numerically the two-dimensional coherent spectrum (2DCS) of the Tomonaga-Luttinger liquid hosted by the $S=1/2$ XY spin chain. The 2DCS characterizes the system's third order nonlinear magnetic response triggered by three pulses, separated successively by the delay time and the waiting time. It exhibits a photon echo signal resulting from a lensing process of the fractional excitations: A pair of photon-excited fractional excitations, initially moving apart, reverse their direction of motion, and annihilate each other. In the XY chain, the nonlinearity in the dispersion relation of the Jordan-Wigner fermions leads to the dispersion of the fractional excitation wave packets and thereby suppresses lensing. The magnitude of the echo signal decreases exponentially with increasing delay time. The decay rate scales with the temperature $T$ as $T^n$ at low temperature, where $n$ is the leading order of the Jordan-Wigner fermion dispersion, and as $T$ at high temperature. By contrast, as the waiting time increases, the magnitude of the echo signal saturates, reflecting the integrability of the system. Our results illustrate the effectiveness of the 2DCS in detecting subtle dynamical properties of optical excitations in spin chains.
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id arxiv_https___arxiv_org_abs_2306_14220
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Photon echo and fractional excitation lensing of $S=1/2$ XY spin chain
Li, Zi-Long
Wan, Yuan
Strongly Correlated Electrons
We study numerically the two-dimensional coherent spectrum (2DCS) of the Tomonaga-Luttinger liquid hosted by the $S=1/2$ XY spin chain. The 2DCS characterizes the system's third order nonlinear magnetic response triggered by three pulses, separated successively by the delay time and the waiting time. It exhibits a photon echo signal resulting from a lensing process of the fractional excitations: A pair of photon-excited fractional excitations, initially moving apart, reverse their direction of motion, and annihilate each other. In the XY chain, the nonlinearity in the dispersion relation of the Jordan-Wigner fermions leads to the dispersion of the fractional excitation wave packets and thereby suppresses lensing. The magnitude of the echo signal decreases exponentially with increasing delay time. The decay rate scales with the temperature $T$ as $T^n$ at low temperature, where $n$ is the leading order of the Jordan-Wigner fermion dispersion, and as $T$ at high temperature. By contrast, as the waiting time increases, the magnitude of the echo signal saturates, reflecting the integrability of the system. Our results illustrate the effectiveness of the 2DCS in detecting subtle dynamical properties of optical excitations in spin chains.
title Photon echo and fractional excitation lensing of $S=1/2$ XY spin chain
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2306.14220