Atomic Optics Department


Next seminars

8 IIISimon Burton (Instytut Fizyki Teoretycznej UJ)
Categories for quantum codes
Location: Zoom, [link], pass:commutator, 14:15
Chaos and Quantum Info Seminar
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[Abstract, more info]

Conferences

08-10.03.2021 - Conference on Time Crystals

More details on conference website.

05-11.11.2021 - Quantum Optics X

More details on conference website.

Titas Chanda

PostDoc
Quantum Simulations Group
Room: B-1-34
Phone: 4554
email
ORCID: 0000-0002-2306-7895
Publons


Publications



2021
[1] R. Yao, T. Chanda, J. Zakrzewski
Nonergodic dynamics in disorder-free potentials
ArXiv e-prints, 2101.11061 (2021).


2020
[2] T. Chanda, D. González-Cuadra, M. Lewenstein, L. Tagliacozzo, J. Zakrzewski
Devil's staircases of topological Peierls insulators and Peierls supersolids
ArXiv e-prints, 2011.09228 (2020).
[3] T. Chanda, R. Kraus, G. Morigi, J. Zakrzewski
Self-organized topological insulator via cavity-mediated correlated tunneling
ArXiv e-prints, 2011.01687 (2020).
[4] T. Chanda, P. Sierant, J. Zakrzewski
Many-body localization transition in large quantum spin chains: The mobility edge
ArXiv e-prints, 2006.02860 (2020).
[5] S. Ghosh, T. Chanda, S. Mal, A. De
Fast charging of quantum battery assisted by noise
ArXiv e-prints, 2005.12859 (2020).
[6] T. Chanda, R. Yao, J. Zakrzewski
Coexistence of localized and extended phases: Many-body localization in a harmonic trap
ArXiv e-prints, 2004.00954 (2020).
[7] S. Haldar, S. Roy, T. Chanda, A. De
Response of macroscopic and microscopic dynamical quantifiers to the quantum critical region
ArXiv e-prints, 1908.06374 (2020).
[8] T. Chanda, J. Zakrzewski, M. Lewenstein, L. Tagliacozzo
Confinement and Lack of Thermalization after Quenches in the Bosonic Schwinger Model
Phys. Rev. Lett. 124,180602 (2020).
[arxiv]
[9] T. Chanda, P. Sierant, J. Zakrzewski
Time dynamics with matrix product states: Many-body localization transition of large systems revisited
Phys. Rev. B 101,035148 (2020).
[arxiv]
[10] S. Ghosh, T. Chanda, A. Sende
Enhancement in the performance of a quantum battery by ordered and disordered interactions
Physical Review A 101,032115 (2020).
[arxiv]
[11] S. Haldar, S. Roy, T. Chanda, A. Sen(de), U. Sen
Multipartite entanglement at dynamical quantum phase transitions with nonuniformly spaced criticalities
Physical Review B 101, (2020).
[arxiv]


2019
[12] S. Rethinasamy, S. Roy, T. Chanda, A. Sen, U. Sen
Universality in distribution of monogamy scores for random multiqubit pure states
Physical Review A 99,042302 (2019).
[arxiv]
[13] S. Roy, T. Chanda, T. Das, D. Sadhukhan, A. Sen De, U. Sen
Phase boundaries in an alternating-field quantum XY model with Dzyaloshinskii-Moriya interaction: Sustainable entanglement in dynamics
Physical Review B 99,064422 (2019).
[arxiv]


2018
[14] S. Roy, T. Chanda, T. Das, A. Sen, U. Sen
Response in the violation of the Bell inequality to imperfect photon addition and subtraction in noisy squeezed states of light
Physical Review A 98,052131 (2018).
[arxiv]
[15] T. Chanda, T. Das, S. Mal, A. Sen, U. Sen
Canonical Leggett-Garg inequality: Nonclassicality of temporal quantum correlations under energy constraint
Physical Review A 98,022138 (2018).
[arxiv]
[16] T. Chanda, T. Das, D. Sadhukhan, A. Pal, A. Sen, U. Sen
Scale-invariant freezing of entanglement
Physical Review A 97,062324 (2018).
[arxiv]
[17] T. Chanda, T. Das, D. Sadhukhan, A. Pal, A. Sen, U. Sen
Emergence of entanglement with temperature and time in factorization-surface states
Physical Review A 97,012316 (2018).
[arxiv]
[18] S. Roy, T. Chanda, T. Das, A. Sen(De), U. Sen
Deterministic quantum dense coding networks
Physics Letters, Section A: General, Atomic and Solid State Physics 382,1709-1715 (2018).
[arxiv]


2016
[19] T. Chanda, T. Das, D. Sadhukhan, A. Pal, A. Sen, U. Sen
Static and dynamical quantum correlations in phases of an alternating-field XY model
Physical Review A 94,042310 (2016).
[arxiv]
[20] T. Chanda, T. Das, D. Sadhukhan, A. Pal, U. Sen
Statistics of leading digits leads to unification of quantum correlations
EPL 114,30004 (2016).
[arxiv]
[21] T. Chanda, S. Bhattacharya
Delineating incoherent non-Markovian dynamics using quantum coherence
Annals of Physics 366,1-12 (2016).
[arxiv]


2015
[22] T. Chanda, T. Das, D. Sadhukhan, A. Pal, A. Sen De, U. Sen
Reducing computational complexity of quantum correlations
Physical Review A - Atomic, Molecular, and Optical Physics 92,062301 (2015).
[arxiv]
[23] T. Chanda, A. Pal, A. Biswas, A. Sen, U. Sen
Freezing of quantum correlations under local decoherence
Physical Review A - Atomic, Molecular, and Optical Physics 91,062119 (2015).
[arxiv]