石墨烯的超快光致发光。

Ultrafast photoluminescence from graphene.

机构信息

Department of Physics, Columbia University, 538 West 120th Street, New York, New York 10027, USA.

出版信息

Phys Rev Lett. 2010 Sep 17;105(12):127404. doi: 10.1103/PhysRevLett.105.127404. Epub 2010 Sep 16.

DOI:10.1103/PhysRevLett.105.127404

PMID:20867672

Abstract

Since graphene has no band gap, photoluminescence is not expected from relaxed charge carriers. We have, however, observed significant light emission from graphene under excitation by ultrashort (30-fs) laser pulses. Light emission was found to occur across the visible spectral range (1.7-3.5 eV), with emitted photon energies exceeding that of the excitation laser (1.5 eV). The emission exhibits a nonlinear dependence on the laser fluence. In two-pulse correlation measurements, a dominant relaxation time of tens of femtoseconds is observed. A two-temperature model describing the electrons and their interaction with strongly coupled optical phonons can account for the experimental observations.

摘要

由于石墨烯没有带隙，因此人们预计从弛豫的载流子中不会产生光致发光。然而，我们已经观察到在超短（30 飞秒）激光脉冲激发下，石墨烯会发出显著的光。发现光发射发生在整个可见光谱范围内（1.7-3.5 eV），发射光子的能量超过激发激光（1.5 eV）。发射表现出对激光强度的非线性依赖性。在双脉冲相关测量中，观察到数十飞秒的主要弛豫时间。一个描述电子及其与强耦合光声子相互作用的双温模型可以解释实验观察结果。

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石墨烯的超快光致发光。

Ultrafast photoluminescence from graphene.

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