Spectral Measurement of the Hall Angle Response in Normal State Cuprate Superconductors

Grayson, M.; Rigal, Laurent; Schmadel, D. C.; Drew, H. D.; Kung, P.J.

doi:10.1103/physrevlett.89.037003

Cited by 29 publications

(40 citation statements)

References 32 publications

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“…9 where it is compared with far-infrared data from Ref. 17. The results show a significant disconnect from the behavior of Re( H ) in the existing data for YBa 2 Cu 3 O 7 in the far infrared, which indicate a negative value for Re( F ) above 250 cm Ϫ1 , whereas that of the current work at 1000 cm Ϫ1 is positive.…”

Section: B High Temperature Superconductor Bi 2 Sr 2 Ca 1 Cu 2 O 8¿␦mentioning

confidence: 67%

Measurement of the infrared magneto-optic properties of thin-film metals and high temperature superconductors

Černe

Schmadel

Rigal

et al. 2003

Review of Scientific Instruments

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A sensitive polarization modulation technique uses photoelastic modulation and heterodyne detection to simultaneously measure the Faraday rotation and induced ellipticity in light transmitted by semiconducting and metallic samples. The frequencies measured are in the midinfrared and correspond to the spectral lines of a CO 2 laser. The measured temperature range is continuous and extends from 35 to 330 K. Measured samples include GaAs and Si substrates, gold and copper films, and YBCO and BSCCO high temperature superconductors.

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Section: B High Temperature Superconductor Bi 2 Sr 2 Ca 1 Cu 2 O 8¿␦mentioning

confidence: 67%

Measurement of the infrared magneto-optic properties of thin-film metals and high temperature superconductors

Černe

Schmadel

Rigal

et al. 2003

Review of Scientific Instruments

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“…• from the original polarization (Y signal) [35,36]. This method allows fast magnetic field scanning and the analysis of the full spectral response.…”

Section: Thz Methodsmentioning

confidence: 99%

Terahertz Response and Colossal Kerr Rotation from the Surface States of the Topological InsulatorBi2Se3

et al. 2012

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We report the THz response of thin films of the topological insulator Bi2Se3. At low frequencies, transport is essentially thickness independent showing the dominant contribution of the surface electrons. Despite their extended exposure to ambient conditions, these surfaces exhibit robust properties including narrow, almost thickness-independent Drude peaks, and an unprecedentedly large polarization rotation of linearly polarized light reflected in an applied magnetic field. This Kerr rotation can be as large as 65• and can be explained by a cyclotron resonance effect of the surface states.Ordered states of matter are typically categorized by their broken symmetries. With the ordering of spins in a ferromagnet or the freezing of a liquid into a solid, the loss of symmetry distinguishes the ordered state from the disordered one. In contrast, topological states are distinguished by specific topological properties that are encoded in their quantum mechanical wavefunctions [1]. Frequently, a consequence of these properties is that there are robust "topologically protected" states on the sample's boundaries. The edge states of the quantum Hall effect (QHE) are the classic example [2]. In the last few years, it was realized that another class of such topological matter may exist in 3D band insulators with large spin-orbit interaction [3][4][5][6]. These so-called topological insulators are predicted to host robust surface states, which exhibit a number of interesting properties including spin helicity, immunity to back-scattering, and weak anti -localization. There are predictions of a number of unusual phenomena associated with these surface states, including a proximity-effect-induced exotic superconducting state with Majorana fermions bound to a vortex [7,8] and an axion electromagnetic response [9,10], and proposals for applications, such as their use in terahertz (THz) devices [11].Most of the signatures of topological behavior in these materials thus far have come from surface probes such as angle resolved photoemission (ARPES) and scanning tunneling spectroscopy [12][13][14][15][16][17]. These experiments have revealed that the surface states indeed show signatures of the predicted topological properties, such as a Diraclike dispersion, chiral spin textures, and the absence of backscattering. Direct observation of the topological behavior in transport has been hampered by the lack of a true bulk insulating state. Only recently have transport experiments started to distinguish the surface contribution from the bulk [18][19][20][21].As opposed to the case of the quantum Hall effect, in topological insulators, the quantization of the offdiagonal conductivity is not a requirement for the existence of the topological state. This, along with the problem of bulk conduction, has made finding a unique signature of this state difficult. It has been proposed that topological insulators may be characterized by their electrodynamic properties [9] due to the existence of an axionic term in the action ∆L = αθ dxdtE · B, where...

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“…It also allows tests of proposed theories which agree qualitatively with DC measurements but can be distinguished at finite frequency [9,10,11,12]. [11].…”

mentioning

confidence: 89%

“…Therefore, important questions have to do with the mode in which these systems approach the Mott state as the doping is reduced from the optimal value. In the Mott transition the Fermi surface remains intact but spectral weight transfers from a quasiparticle band at the Fermi level to the Hubbard bands away from the Fermi energy [7,8] The infrared Hall effect is a powerful tool for the investigation of strongly correlated metals giving important information on the carrier dynamics [9,10,11,12]. In contrast to the DC Hall effect the measurements at infrared frequencies gives information on the energy scales of current relaxation in the normal state of high Tc superconductors.…”

mentioning

confidence: 99%

Magneto-optical Evidence for a Gapped Fermi Surface in UnderdopedYBa2Cu3O
Rigal
¹
,
Schmadel
²
,
Drew
³

et al. 2004
Phys. Rev. Lett.
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The infrared (900-1100 cm -1 ) Faraday rotation and circular dichroism are measured in the normal state of underdoped High T c superconductors and used to study the magneto-transport. YBa 2 Cu 3 O 6+x thin films are investigated in the temperature range 10-300 K in magnetic fields up to 8 Tesla and as a function of oxygen concentration. A dramatic increase of the Hall frequency is observed for underdoped samples which is not consistent with the approach to a Mott transition but is consistent with a partial gapping of the Fermi surface as predicted in charge density wave models.

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Spectral Measurement of the Hall Angle Response in Normal State Cuprate Superconductors

Cited by 29 publications

References 32 publications

Measurement of the infrared magneto-optic properties of thin-film metals and high temperature superconductors

Measurement of the infrared magneto-optic properties of thin-film metals and high temperature superconductors

Terahertz Response and Colossal Kerr Rotation from the Surface States of the Topological InsulatorBi2Se3

Magneto-optical Evidence for a Gapped Fermi Surface in UnderdopedYBa2Cu3O
Rigal
¹
,
Schmadel
²
,
Drew
³

et al. 2004
Phys. Rev. Lett.
Self Cite
24
10
27
0
View full text Add to dashboard Cite

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Spectral Measurement of the Hall Angle Response in Normal State Cuprate Superconductors

Cited by 29 publications

References 32 publications

Measurement of the infrared magneto-optic properties of thin-film metals and high temperature superconductors

Measurement of the infrared magneto-optic properties of thin-film metals and high temperature superconductors

Terahertz Response and Colossal Kerr Rotation from the Surface States of the Topological InsulatorBi2Se3

Magneto-optical Evidence for a Gapped Fermi Surface in UnderdopedYBa2Cu3ORigal1, Schmadel2, Drew3 et al. 2004Phys. Rev. Lett.Self Cite2410270View full textAdd to dashboardCite

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Magneto-optical Evidence for a Gapped Fermi Surface in UnderdopedYBa2Cu3O
Rigal
¹
,
Schmadel
²
,
Drew
³

et al. 2004
Phys. Rev. Lett.
Self Cite
24
10
27
0
View full text Add to dashboard Cite