TY - JOUR
T1 - Quantum-critical conductivity of the Dirac fluid in graphene
AU - Gallagher, Patrick
AU - Yang, Chan Shan
AU - Lyu, Tairu
AU - Tian, Fanglin
AU - Kou, Rai
AU - Zhang, Hai
AU - Watanabe, Kenji
AU - Taniguchi, Takashi
AU - Wang, Feng
N1 - Publisher Copyright:
© 2017 The Authors.
PY - 2019
Y1 - 2019
N2 - Graphene near charge neutrality is expected to behave like a quantum-critical, relativistic plasma-the "Dirac fluid"-in which massless electrons and holes collide at a rapid rate. We used on-chip terahertz spectroscopy to measure the frequency-dependent optical conductivity of clean, micrometer-scale graphene at electron temperatures between 77 and 300 kelvin. At charge neutrality, we observed the quantum-critical scattering rate characteristic of the Dirac fluid. At higher doping, we detected two distinct current-carrying modes with zero and nonzero total momenta, a manifestation of relativistic hydrodynamics. Our work reveals the quantum criticality and unusual dynamic excitations near charge neutrality in graphene.
AB - Graphene near charge neutrality is expected to behave like a quantum-critical, relativistic plasma-the "Dirac fluid"-in which massless electrons and holes collide at a rapid rate. We used on-chip terahertz spectroscopy to measure the frequency-dependent optical conductivity of clean, micrometer-scale graphene at electron temperatures between 77 and 300 kelvin. At charge neutrality, we observed the quantum-critical scattering rate characteristic of the Dirac fluid. At higher doping, we detected two distinct current-carrying modes with zero and nonzero total momenta, a manifestation of relativistic hydrodynamics. Our work reveals the quantum criticality and unusual dynamic excitations near charge neutrality in graphene.
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U2 - 10.1126/science.aat8687
DO - 10.1126/science.aat8687
M3 - Article
C2 - 30819930
AN - SCOPUS:85062987405
SN - 0036-8075
VL - 364
SP - 158
EP - 162
JO - Science
JF - Science
IS - 6436
ER -