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Achintya Paradkar
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A chip-based superconducting magnetic trap for levitating superconducting microparticles
MG Latorre, A Paradkar, D Hambraeus, G Higgins, W Wieczorek
IEEE Transactions on Applied Superconductivity 32 (4), 1-5, 2022
182022
Superconducting microsphere magnetically levitated in an anharmonic potential with integrated magnetic readout
MG Latorre, G Higgins, A Paradkar, T Bauch, W Wieczorek
Physical Review Applied 19 (5), 054047, 2023
152023
Superconducting microsphere magnetically levitated in an anharmonic potential
MG Latorre, G Higgins, A Paradkar, T Bauch, W Wieczorek
arXiv preprint arXiv:2210.13451, 2022
32022
Design and Development of Linear Compliant Amplifier based on Flexure Mechanism
SP Deshmukh, AA Paradkar, UR Bhamare
International Conference on Advances in Thermal Systems, Materials and …, 2017
12017
Towards quantum magnetomechanics-chip-based magnetic levitation of a superconducting microsphere
G Higgins, M Gutierrez Latorre, A Paradkar, A Söderqvist, F Resare, ...
APS March Meeting Abstracts 2023, B66. 012, 2023
2023
Quantum Technologies II: Cryptography, Blockchains, and Sensing
A Sharma, A Paradkar, VN Rao
Quantum and Blockchain for Modern Computing Systems: Vision and Advancements …, 2022
2022
Chip-based magnetic levitation of superconducting microparticles for macroscopic quantum experiments
W Wieczorek, M Gutierrez Latorre, A Paradkar, G Higgins
APS March Meeting Abstracts 2022, D33. 013, 2022
2022
A chip-based superconducting magnetic trap for levitating superconducting microparticles
M Gutierrez Latorre, A Paradkar, D Hambraeus, G Higgins, W Wieczorek
arXiv e-prints, arXiv: 2109.15071, 2021
2021
Magnetoelectric devices for beyond CMOS applications
A Paradkar
2020
Testing quantum mechanics with heavy objects–using magnetically-levitated superconducting microparticles
G Higgins, J Hofer, P Schmidt, MG Latorre, A Paradkar, W Wieczorek, ...
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