Polaronic Conductivity in the Photoinduced Phase of 1T−TaS2

Nicky Dean; Jesse Petersen; Daniele Fausti; Ra'anan I. Tobey; Stefan Kaiser; Lev Gasparov; Helmuth Berger; Andrea Cavalleri

doi:10.1103/PhysRevLett.106.016401

Polaronic Conductivity in the Photoinduced Phase of 1T−TaS2

Nicky Dean, Jesse Petersen, Daniele Fausti, Ra'anan I. Tobey, Stefan Kaiser, Lev Gasparov, Helmuth Berger, Andrea Cavalleri

Producción científica: Article › revisión exhaustiva

Resumen

The transient optical conductivity of photoexcited 1⁢𝑇−TaS2 is determined over a three-order-of-magnitude frequency range. Prompt collapse and recovery of the Mott gap is observed. However, we find important differences between this transient metallic state and that seen across the thermally driven insulator-metal transition. Suppressed low-frequency conductivity, Fano phonon line shapes, and a midinfrared absorption band point to polaronic transport. This is explained by noting that the photoinduced metallic state of 1⁢𝑇−TaS2 is one in which the Mott gap is melted but the lattice retains its low-temperature symmetry, a regime only accessible by photodoping.

Idioma original	American English
Publicación	Physical Review Letters
Volumen	106
DOI	https://doi.org/10.1103/PhysRevLett.106.016401
Estado	Published - ene 4 2011

Disciplines

Atomic, Molecular and Optical Physics
Physics
Quantum Physics
Condensed Matter Physics

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10.1103/PhysRevLett.106.016401Licencia: Unspecified

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title = "Polaronic Conductivity in the Photoinduced Phase of 1T−TaS2",

abstract = "The transient optical conductivity of photoexcited 1⁢𝑇−TaS2 is determined over a three-order-of-magnitude frequency range. Prompt collapse and recovery of the Mott gap is observed. However, we find important differences between this transient metallic state and that seen across the thermally driven insulator-metal transition. Suppressed low-frequency conductivity, Fano phonon line shapes, and a midinfrared absorption band point to polaronic transport. This is explained by noting that the photoinduced metallic state of 1⁢𝑇−TaS2 is one in which the Mott gap is melted but the lattice retains its low-temperature symmetry, a regime only accessible by photodoping.",

author = "Nicky Dean and Jesse Petersen and Daniele Fausti and Tobey, \{Ra'anan I.\} and Stefan Kaiser and Lev Gasparov and Helmuth Berger and Andrea Cavalleri",

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T1 - Polaronic Conductivity in the Photoinduced Phase of 1T−TaS2

AU - Dean, Nicky

AU - Petersen, Jesse

AU - Fausti, Daniele

AU - Tobey, Ra'anan I.

AU - Kaiser, Stefan

AU - Gasparov, Lev

AU - Berger, Helmuth

AU - Cavalleri, Andrea

N1 - Autor: Dean, N. et al.; Genre: Zeitschriftenartikel; Im Druck veröffentlicht: 2011-01-07; Open Access; Keywords: PACS numbers: 71.45.Lr, 63.20.kd, 73.20.Mf, 78.47.jg; Titel: Polaronic Conductivity in the Photoinduced Phase of 1T−TaS2

PY - 2011/1/4

Y1 - 2011/1/4

N2 - The transient optical conductivity of photoexcited 1⁢𝑇−TaS2 is determined over a three-order-of-magnitude frequency range. Prompt collapse and recovery of the Mott gap is observed. However, we find important differences between this transient metallic state and that seen across the thermally driven insulator-metal transition. Suppressed low-frequency conductivity, Fano phonon line shapes, and a midinfrared absorption band point to polaronic transport. This is explained by noting that the photoinduced metallic state of 1⁢𝑇−TaS2 is one in which the Mott gap is melted but the lattice retains its low-temperature symmetry, a regime only accessible by photodoping.

AB - The transient optical conductivity of photoexcited 1⁢𝑇−TaS2 is determined over a three-order-of-magnitude frequency range. Prompt collapse and recovery of the Mott gap is observed. However, we find important differences between this transient metallic state and that seen across the thermally driven insulator-metal transition. Suppressed low-frequency conductivity, Fano phonon line shapes, and a midinfrared absorption band point to polaronic transport. This is explained by noting that the photoinduced metallic state of 1⁢𝑇−TaS2 is one in which the Mott gap is melted but the lattice retains its low-temperature symmetry, a regime only accessible by photodoping.

UR - http://pubman.mpdl.mpg.de/pubman/item/escidoc:2176368

U2 - 10.1103/PhysRevLett.106.016401

DO - 10.1103/PhysRevLett.106.016401

M3 - Article

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VL - 106

JO - Physical Review Letters

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