Coulomb Drag Between Quasiballistic Quantum Wires: an Indication of Non-Fermi-Liquid Behavior

(2) Universit\"at zu K\"oln; (3) Concordia University; (4) Department of Physics; Canada; CEA Saclay; Department of Physics; E. Raichev (1); France; Germany; Gif-sur-Yvette

arxiv: cond-mat/0105298 · v1 · pith:YZY3IZG7new · submitted 2001-05-15 · ❄️ cond-mat.mes-hall

Coulomb Drag Between Quasiballistic Quantum Wires: an Indication of Non-Fermi-Liquid Behavior

P. Debray (1) , V. Zverev (1) , R. Klesse (2) , E. Raichev (1) , P. Vasilopoulos (3) , M. Rahman (4) ((1) Service de Physique de l' \'Etat Condens\'e , CEA Saclay , Gif-sur-Yvette

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France (2) Universit\"at zu K\"oln Institut f\"ur Theoretiche Physik K\"oln Germany (3) Concordia University Department of Physics Montreal Canada (4) Department of Physics University of Glasgow Glasgow UK)

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keywords dragwirescoulombinterwirequantumabsencealignedbeen

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The Coulomb drag between two spatially separated, 2 \mu m long lithographically defined quantum wires has been studied experimentally in the absence of interwire tunneling. The drag resistance R_D shows peaks when the 1D subband bottoms of the wires are aligned and the Fermi wave vector k_F is small. R_D decreases exponentially with the interwire separation d. In the temperature range 0.2K to 1K the drag signal shows the {\it power-law dependence} R_D ~ T**x with x ranging from -0.61 to -0.77 depending on the magnitude of k_F. We interpret our experimental results in the framework of the Tomonaga-Luttinger liquid theory.

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Coulomb Drag Between Quasiballistic Quantum Wires: an Indication of Non-Fermi-Liquid Behavior

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