Linewidth of single photon transitions in Mn$_{12}$-acetate

A. Fort; A. Mukhin; A.A. Mukhin; A.A. Mukhin; Anne Laure Barra; Beth Parks; David N. Hendrickson; Evan Rumberger; Fernando Luis; Françoise Hartmann-Boutron; George Christou; H. Ibach; I. Mirebeau; Jonathan R. Friedman; Jonathan R. Friedman; Joseph Loomis; L. Thomas; M.R. Pederson; Michael N. Leuenberger; N.V. Prokofev; S. Hill; S.M.J. Aubin; Sheila M.J. Aubin; T. Lis; W. Wernsdorfer; Yicheng Zhong; Yicheng Zhong

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Linewidth of single photon transitions in Mn $_{12}$ -acetate

Authors: A. Fort
A. Mukhin
A.A. Mukhin
A.A. Mukhin
Anne Laure Barra
Beth Parks
David N. Hendrickson
Evan Rumberger
Fernando Luis
Françoise Hartmann-Boutron
George Christou
H. Ibach
I. Mirebeau
Jonathan R. Friedman
Jonathan R. Friedman
Joseph Loomis
L. Thomas
M.R. Pederson
Michael N. Leuenberger
N.V. Prokofev
S. Hill
S.M.J. Aubin
Sheila M.J. Aubin
T. Lis
W. Wernsdorfer
Yicheng Zhong
Yicheng Zhong
Publication date: 31 October 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We use time-domain terahertz spectroscopy to measure the position and linewidth of single photon transitions in Mn

_{12}

-acetate. This linewidth is compared to the linewidth measured in tunneling experiments. We conclude that local magnetic fields (due to dipole or hyperfine interactions) cannot be responsible for the observed linewidth, and suggest that the linewidth is due to variations in the anisotropy constants for different clusters. We also calculate a lower limit on the dipole field distribution that would be expected due to random orientations of clusters and find that collective effects must narrow this distribution in tunneling measurements.Comment: 5 pages, accepted to Physical Review

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