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Your search keyword '"Joshi, Lalit M."' showing total 27 results
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27 results on '"Joshi, Lalit M."'

1. Quantum Parity Detectors: a qubit based particle detection scheme with meV thresholds for rare-event searches

Author

Ramanathan, Karthik, Parker, John E., Joshi, Lalit M., Beyer, Andrew D., Echternach, Pierre M., Rosenblum, Serge, Sandoval, Brandon J., and Golwala, Sunil R.

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics, High Energy Physics - Experiment, Quantum Physics
Abstract

The next generation of rare-event searches, such as those aimed at determining the nature of particle dark matter or in measuring fundamental neutrino properties, will benefit from particle detectors with thresholds at the meV scale, 100-1000x lower than currently available. Quantum parity detectors (QPDs) are a novel class of proposed quantum devices that use the tremendous sensitivity of superconducting qubits to quasiparticle tunneling events as their detection concept. As envisioned, phonons generated by particle interactions within a crystalline substrate cause an eventual quasiparticle cascade within a surface patterned superconducting qubit element. This process alters the fundamental charge parity of the device in a binary manner, which can be used to deduce the initial properties of the energy deposition. We lay out the operating mechanism, noise sources, and expected sensitivity of QPDs based on a spectrum of charge-qubit types and readout mechanisms and detail an R&D pathway to demonstrating sensitivity to sub-eV energy deposits., Comment: 18 pages, 9 figures, 4 appendices

Published
2024

2. Recovering quantum coherence of a cavity qubit through environment monitoring and active feedback

Author

Goldblatt, Uri, Kahn, Nitzan, Hazanov, Sergey, Milul, Ofir, Guttel, Barkay, Joshi, Lalit M., Chausovsky, Daniel, Lafont, Fabien, and Rosenblum, Serge

Subjects
Quantum Physics
Abstract

Decoherence in qubits, caused by their interaction with a noisy environment, poses a significant challenge to developing reliable quantum processors. Monitoring the qubit's environment enables not only to identify decoherence events but also to reverse these errors, thereby restoring the qubit coherence. This approach is particularly beneficial for superconducting cavity qubits, whose unavoidable interaction with auxiliary transmons impacts their coherence. In this work, we uncover the intricate dynamics of cavity decoherence by tracking the noisy trajectory of a transmon acting as the cavity's environment. Using real-time feedback, we successfully recover the lost coherence of the cavity qubit, achieving a fivefold increase in its dephasing time. Alternatively, by detecting transmon errors and converting them into erasures, we improve the cavity phase coherence by more than an order of magnitude. These advances are essential for implementing long-lived cavity qubits with high-fidelity gates and can enable more efficient bosonic quantum error correction codes., Comment: 17 pages, 10 figures, including supplementary information

Published
2024

4. Superconducting cavity qubit with tens of milliseconds single-photon coherence time

Author

Milul, Ofir, Guttel, Barkay, Goldblatt, Uri, Hazanov, Sergey, Joshi, Lalit M., Chausovsky, Daniel, Kahn, Nitzan, Çiftyürek, Engin, Lafont, Fabien, and Rosenblum, Serge

Subjects
Quantum Physics
Abstract

Storing quantum information for an extended period of time is essential for running quantum algorithms with low errors. Currently, superconducting quantum memories have coherence times of a few milliseconds, and surpassing this performance has remained an outstanding challenge. In this work, we report a qubit encoded in a novel superconducting cavity with a coherence time of 34 ms, an improvement of over an order of magnitude compared to previous demonstrations. We use this long-lived quantum memory to store a Schr\"odinger cat state with a record size of 1024 photons, indicating the cavity's potential for bosonic quantum error correction., Comment: 16 pages, 11 figures, including supplementary information

Published
2023
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6. Light Induced Electron-Phonon Scattering Mediated Resistive Switching in Nanostructured Nb Thin Film Superconductor

Author

Kazim, Shafaq, Sharma, Alka, Yadav, Sachin, Gajar, Bikash, Joshi, Lalit M., Mishra, Monu, Gupta, Govind, Husale, Sudhir, Gupta, Anurag, Sahoo, Sangeeta, and Ojha, V. N.

Subjects
Condensed Matter - Materials Science
Abstract

The elemental Nb is mainly investigated for its eminent superconducting properties. In contrary, we report of a relatively unexplored property, namely, its superior optoelectronic property in reduced dimension. We demonstrate here that nanostructured Nb thin films (NNFs), under optical illumination, behave as room temperature photo-switches and exhibit bolometric features below its superconducting critical temperature. Both photo-switch and superconducting bolometric behavior are monitored by its resistance change with light in visible and near infrared (NIR) wavelength range. Unlike the conventional photodetectors, the NNF devices switch to higher resistive states with light and the corresponding resistivity change is studied with thickness and grain size variations. At low temperature in its superconducting state, the light exposure shifts the superconducting transition towards lower temperature. The room temperature photon sensing nature of the NNF is explained by the photon assisted electron-phonon scattering mechanism while the low temperature light response is mainly related to the heat generation which essentially changes the effective temperature for the device and the device is capable of sensing a temperature difference of few tens of milli-kelvins. The observed photo-response on the transport properties of NNFs can be very important for future superconducting photon detectors, bolometers and phase slip based device applications.

Published
2017
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12. A superconducting quantum memory with tens of milliseconds coherence time

Author

Milul, Ofir, Guttel, Barkay, Goldblatt, Uri, Hazanov, Sergey, Joshi, Lalit M., Chausovsky, Daniel, Kahn, Nitzan, Çiftyürek, Engin, Lafont, Fabien, and Rosenblum, Serge

Subjects
Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph)
Abstract

Storing quantum information for an extended period of time is essential for running quantum algorithms with low errors. Currently, superconducting quantum memories have coherence times of a few milliseconds, and surpassing this performance has remained an outstanding challenge. In this work, we report a qubit encoded in a novel superconducting cavity with a coherence time of 34 ms, an improvement of over an order of magnitude compared to previous demonstrations. We use this long-lived quantum memory to store a Schr\"odinger cat state with a record size of 1024 photons, indicating the cavity's potential for bosonic quantum error correction., Comment: 19 pages, 11 figures, including supplementary information

Published
2023

23. Taxonomical Description, Nativity and Endemism with Particular Reference to Threatened Ethnomedicinal Plants of Almora District of Western Himalaya

Author

Priti Kumari, Girish C. Joshi, Lalit M. Tewar

Subjects
lcsh:Agriculture, lcsh:S, lcsh:Q, lcsh:Science
Abstract

Out of 187 ethno-medicinal plants of Almora district (Kumari et. al. 2011), identifications, distribution, nativity and endemic/near endemic of 21 threatened ethno-medicinal plant species were studied. These 21 species of ethno medicinal plants belonging to 16 families were recorded. Of these, 2 species were trees, 1 shrub, 16 herbs and 2 climbers. The families Taxaceae, Ranunculaceae, Berberadaceae, Euphorbiaceae, Saxifragaceae,Verbenaceae,Bignonoaceae, Celastraceae, Costaceae, Dioscoreaceae, Hypoxidaceae, Valerianaceae and Gentianaceae having single species, Lamiaceae, having two species and Orchidaceae, Liliaceae having three species were identified.

Published
2015

27. P1–5: Development of a 300W peak power J-band klystron

Author

Joshi, Lalit M, primary, Pal, Debashish, additional, Kant, Deependra, additional, Ratan, Shilpam, additional, Choudhury, Amitavo R., additional, Jindal, Vishnu, additional, Jangid, Sushil, additional, Sharma, Shivani, additional, Meena, Rakesh, additional, Nangru, Subhash C., additional, Sharma, Rajendra K., additional, Sharma, Sudhir M., additional, and Arya, Sunita, additional

Published
2010
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