Kalarikad Thomas
London Centre for Nanotechnology
42 Papers
151 Citations
Kalarikad Thomas is an academic researcher from London Centre for Nanotechnology. The author has contributed to research in topics: Magnetic field & Quantum wire. The author has an hindex of 16, co-authored 40 publications. Previous affiliations of Kalarikad Thomas include Sungkyunkwan University & University College London.
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Papers
Possible Spin Polarization in a One-Dimensional Electron Gas.
Kalarikad Thomas,J. T. Nicholls,Michelle Y. Simmons,Michael Pepper,D. R. Mace,David A. Ritchie +5 more
TL;DR: The measured enhancement of the $g$ factor as the subbands are depopulated suggests that the ``0.7 structure'' is induced by electron-electron interactions.
Many-body effects in a quasi-one-dimensional electron gas
Sanjeev Kumar,Sanjeev Kumar,Kalarikad Thomas,Kalarikad Thomas,L. W. Smith,Michael Pepper,Michael Pepper,Graham Creeth,Graham Creeth,Ian Farrer,David A. Ritchie,Geraint Jones,J. Griffiths +12 more
TL;DR: In this article, the authors investigated electron transport in a quasi-one dimensional (quasi-1D) electron gas as a function of the confinement potential and found that the ground state of a 1D quantum wire splits into two rows to form an incipient Wigner lattice.
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Transition from direct to Fowler–Nordheim tunneling in chemically reduced graphene oxide film
Srikrishna Pandey,Chandan Biswas,Titisa Ghosh,Jung Jun Bae,Padmnabh Rai,Gil-Ho Kim,Kalarikad Thomas,Young Hee Lee,Pavel Nikolaev,Sivaram Arepalli +9 more
TL;DR: The absence of current switching in the I-V curve after stripping away the oxygen functional groups from chemically RGO film confirms that the presence of these groups and reduced interaction between adjacent layers of RGO play a key role in charge transport.
38
•Journal Article
Capillary blood cell velocity is reduced in fever without hypotension.
TL;DR: Although the mean skin temperature of subjects was not significantly different to controls, the mean velocity was significantly reduced in the febrile subject group, suggesting that these skin vessels vasoconstrict as part of the integrated response to reduce heat loss.
32
Field-induced modulation of the conductance, thermoelectric power, and magnetization in ballistic coupled double quantum wires under a tilted magnetic field
TL;DR: In this paper, the effect of a tilted magnetic field on the modulation of tunneling, ballistic conductance, the ballistic electron-diffusion thermoelectric power, and the orbital magnetization is studied for tunnel-coupled ballistic double quantum wires.
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