Institution
Solid State Physics Laboratory
Facility•Delhi, India•
About: Solid State Physics Laboratory is a facility organization based out in Delhi, India. It is known for research contribution in the topics: Quantum dot & Dielectric. The organization has 1754 authors who have published 2597 publications receiving 50601 citations.
Papers published on a yearly basis
Papers
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TL;DR: In this article, it was shown that trap-assisted tunnelling and band-to-band tunneling mechanisms make negligible contributions to the dark current in an HgCdTe p + n junction.
Abstract: This paper presents a result that shows that the trap-assisted tunnelling and band to band tunnelling mechanisms make negligible contributions to the dark current in an HgCdTe p + –n junction. Alternatively, the excess dark current of these junctions can be fairly well accounted for by invoking the avalanche multiplication mechanism.
16 citations
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TL;DR: In this paper, the authors compared the performance of SiO2 passivation with SiN passivation and found that the SiO 2 passivation improved the breakdown voltage of AlGaN/GaN HEMT.
16 citations
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TL;DR: In this paper, the effective series resistance of n + -p junction solar cells has been measured as a function of operating current using open circuit voltage decay (OCVD), and Rajkanan and Shewchun (R−S) techniques.
16 citations
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TL;DR: The present study aims to deduce the confinement effect on the magnetic properties of iron carbide (Fe3C) nanorods filled inside carbon nanotubes (CNTs), and to document any structural phase transitions that can be induced by compressive/tensile stress generated within the nanorod.
Abstract: The present study aims to deduce the confinement effect on the magnetic properties of iron carbide (Fe3C) nanorods filled inside carbon nanotubes (CNTs), and to document any structural phase transitions that can be induced by compressive/tensile stress generated within the nanorod. Enhancement in the magnetic properties of the nanorods is attributed to tensile stress as well as to compression, present in the radial direction and along the nanotube axis, respectively. Finally, the growth of permanent cylindrical nanomagnets has been optimized by applying a field gradient. Besides presenting the growth model of in situ filling, we have also proposed the mechanism of magnetization of the nanotubes. Magnetization along the tube axis has been probed by confirming the pole formation. Fe3C has been selected because of its ease of formation, low TC and incompressibility.
16 citations
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TL;DR: Polarized absorption spectra parallel to a - and b -crystal axes of the single crystal of indole between 2600-3000 A at 90°K have been investigated.
16 citations
Authors
Showing all 1757 results
Name | H-index | Papers | Citations |
---|---|---|---|
Alain Dufresne | 111 | 358 | 45904 |
Yang Ren | 79 | 880 | 26341 |
Klaus Ensslin | 70 | 638 | 21385 |
Werner Wegscheider | 69 | 933 | 21984 |
Takashi Takahashi | 65 | 424 | 14234 |
Liu Hao Tjeng | 64 | 322 | 13752 |
Nicholas E. Geacintov | 63 | 453 | 15636 |
Manfred Sigrist | 61 | 468 | 18362 |
Thomas Ihn | 61 | 475 | 14159 |
Takafumi Sato | 59 | 263 | 11032 |
Christoph Stampfer | 59 | 315 | 14422 |
Christian Colliex | 58 | 289 | 14618 |
Takashi Mizokawa | 57 | 400 | 11697 |
Eberhard Bodenschatz | 57 | 374 | 13208 |
Bertram Batlogg | 55 | 190 | 9459 |