D
D. S. Naik
Researcher at Georgia Institute of Technology
Publications - 23
Citations - 1549
D. S. Naik is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Bose–Einstein condensate & Feshbach resonance. The author has an hindex of 14, co-authored 23 publications receiving 1406 citations. Previous affiliations of D. S. Naik include European Laboratory for Non-Linear Spectroscopy & Institute for Quantum Optics and Quantum Information.
Papers
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Journal ArticleDOI
Entangled State Quantum Cryptography: Eavesdropping on the Ekert Protocol
TL;DR: Using polarization-entangled photons from spontaneous parametric down-conversion, Ekert's quantum cryptography protocol is implemented, and a procedure to increase her detectability is discussed.
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Quantum dynamics of impurities in a one-dimensional Bose gas
Jacopo Catani,Giacomo Lamporesi,D. S. Naik,M. Gring,Massimo Inguscio,Francesco Minardi,Adrian Kantian,Thierry Giamarchi +7 more
TL;DR: In this article, a species-selective dipole potential was used to create initially localized impurities and investigate their interactions with a majority species of bosonic atoms in a one-dimensional configuration during expansion.
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Exploring an ultracold fermi-fermi mixture: interspecies feshbach resonances and scattering properties of 6Li and 40K.
E. Wille,F. M. Spiegelhalder,G. Kerner,D. S. Naik,Andreas Trenkwalder,G. Hendl,Florian Schreck,Rudolf Grimm,Tobias Tiecke,J. T. M. Walraven,Sjjmf Servaas Kokkelmans,Eite Tiesinga,Paul Julienne +12 more
TL;DR: The observed Feshbach resonances in an ultracold mixture of two fermionic species are interpreted using a simple asymptotic bound state model and full coupled channels calculations and unambiguously assigns the observed resonances to various s- and p-wave molecular states.
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Electrochemical properties of Li-Mg alloy electrodes for lithium batteries
TL;DR: In this article, the diffusion coefficients for Li-Mg alloys prepared by the KCVD method are in the range 1.2×10 −7 to 5.2 × 10 −7 ǫcm 2ǫs −1 at room temperature, two to three orders of magnitude larger than those in other lithium alloy systems.
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Collisional stability of 40K immersed in a strongly interacting Fermi gas of 6Li.
TL;DR: In this three-component Fermi-Fermi mixture, the collisional stability of a sample of 40K atoms immersed in a tunable spin mixture of 6Li atoms is investigated.