Douglas Natelson | Researchain

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Featured researches published by Douglas Natelson.

Physical Review B | 2015

Very large magnetoresistance in Fe 0.28 TaS 2 single crystals

Will J. Hardy; Chih-Wei Chen; A. Marcinkova; Heng Ji; Jairo Sinova; Douglas Natelson; Emilia Morosan

Magnetic moments intercalated into layered transition metal dichalcogenides are an excellent system for investigating the rich physics associated with magnetic ordering in a strongly anisotropic, strong spin-orbit coupling environment. We examine electronic transport and magnetization in Fe

Physical Review B | 2015

Very large magnetoresistance inFe0.28TaS2single crystals

Will J. Hardy; Chih-Wei Chen; A. Marcinkova; Heng Ji; Jairo Sinova; Douglas Natelson; Emilia Morosan

_{0.28}

Bulletin of the American Physical Society | 2018

Current Noise in InAs/GaInSb Quantum Well Interfaces

Loah Stevens; Tingxin Li; Rui-Rui Du; Douglas Natelson

TaS

Bulletin of the American Physical Society | 2018

Detecting Photothermoelectric Voltages from Surface Plasmon Polariton Excitation in Gold Nanoscale Devices

Charlotte Evans; Xifan Wang; Pavlo Zolotavin; Douglas Natelson

_{2}

Bulletin of the American Physical Society | 2018

Altered Photothermoelectric Effects in Au nanowires via Surface Modification

Xifan Wang; Charlotte Evans; Jacob W. Ciszek; Douglas Natelson

, a highly anisotropic ferromagnet with a Curie temperature

Bulletin of the American Physical Society | 2017

Transport studies and potential fluctuations in mesoscopic-scale SmTiO

Will J. Hardy; Panpan Zhou; Brandon Isaac; Patrick Marshall; Evgeny Mikheev; Susanne Stemmer; Douglas Natelson

T_{mathrm{C}} sim 68.8~

Bulletin of the American Physical Society | 2017

_3

Xifan Wang; Pavlo Zolotavin; Charlotte Evens; Douglas Natelson

K. We find anomalous Hall data confirming a dominance of spin-orbit coupling in the magnetotransport properties of this material, and a remarkably large field-perpendicular-to-plane MR exceeding 60% at 2 K, much larger than the typical MR for bulk metals, and comparable to state-of-the-art GMR in thin film heterostructures, and smaller only than CMR in Mn perovskites or high mobility semiconductors. Even within the Fe

Bulletin of the American Physical Society | 2017