W E L C O M E
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Research Center for Quantum Information
Institute of Physics, Slovak Academy of Sciences
Dúbravská cesta 9, 84511 Bratislava, Slovakia
Tel: (+421 +2) 20910701
Fax: (+421 +2) 5477-6085
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23.12.2020 Job opening
Postdoc position within project QISS @ IPSAS
Applications are invited for a 18 month postdoc position at the intersection between quantum foundations, quantum information theory, and quantum gravity (previous experience in at least one of these areas is required). The position may start as soon as a suitable candidate is found.
The post is partly funded by the John Templeton Foundation through the project "The Quantum Information Structure of Spacetime" (www.qiss.fr) and partly by Institute of Physics of Slovak Academy of Sciences. The postdoc is expected to work in close collaboration with M. Ziman, A. Gendiar, M. Sedlák or D.Nagaj. Basic gross salary is 1800 eur / month, however, additional funds, depending on the focus and performance, are expected.
The application consists of CV (including list of publications), research statement (short summary of personal research interests and plans), and three names of potential referees we might ask for recommendation. Please send all this information to Michal Sedlak by email (firstname.lastname@example.org) before January 31th 2021 (but the sooner the better), but we can interview candidates and fill the position also earlier. Only complete applications will be considered.
20.12.2020 Job opening
Postdoc position 20.21
We are opening several postdoc positions
in the area of both theoretical and experimental
quantum information technologies. In particular, we seek
for a young experienced researcher capable of leading independently a quantum
network project (establishing a node for quantum communication network within
the quapital.eu initiative), but the positions are not limited to this.
Successful candidates are expected to work in close collaboration with
core members of RCQI on topics of their common interests (quantum communication,
quantum complexity theory, quantum simulations, quantum foundations, etc.).
Basic gross salary franges from 1400-2800 eur / month (depending on the
funding scheme), however, additional funds, depending on the focus and
performance, are expected. The position is offered for 1-3 years.
The application consists of CV (including list of publications), research statement (short summary of personal research interests and plans), and three names of potential referees we might ask for recommendation. Please send all this information to Michal Sedlak by email (email@example.com) before January 31st. Only complete applications are considered.
Slovaks tests unbreakable cryptosystem aiming to connect Bratislava and Vienna
interview with prof. Vladimír Bužek for online IT technology journal http://zive.aktuality.sk/ by Jan Trangel and Filip Hanker (in Slovak)
Slováci testujú neprelomiteľný spôsob šifrovania, idú spojiť Bratislavu a Viedeň. Pri súčasnej vedomosti o tom, ako vyzerá fyzika a svet, nie je kvantovú šifru možné zlomiť, hovorí o prevratnej technológii profesor Vladimír Bužek, jeden z najcitovanejších slovenských fyzikov ... || pdf
Probabilistic storage and retrieval of qubit phase gates
Probabilistic storage and retrieval (PSR) of unitary quantum dynamics is possible with exponentially small failure probability with respect to the number of systems used as a quantum memory [M. Sedlák, A. Bisio, and M. Ziman, Phys. Rev. Lett. 122, 170502 (2019)]. Here we study improvements due to a priori knowledge about the unitary transformation to be stored. In particular, we study N→1 PSR of qubit phase gates, i.e., qubit rotations around the Z axis with an unknown angle, and show that if we access the gate only N times the optimal probability of perfect retrieving of its single use is N/(N+1). We propose a quantum circuit realization for the optimal protocol and show that a programmable phase gate [G. Vidal, L. Masanes, and J. I. Cirac, Phys. Rev. Lett. 88, 047905 (2002)] can be turned into a (2k−1)→1 optimal PSR of phase gates and requires only k controlled-not gates, while having exponentially small failure probability in k.
Michal Sedlák and Mário Ziman
Phys. Rev. A 102, 032618 (2020)
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OPTIQUTE APVV-18-0518, HOQIT VEGA 2/0161/19,
QuantERA project HIPHOP, QISS
Informal quantum symposium 2020
Informal quantum symposium (IQUAS) aims to bring together experts working in the area of quantum information science and technologies and to create a motivating environment full of scientific interactions and discussions (while keeping the regulation of safe distance :-). Conceptually, IQUAS stands somewhere between workshops and unconferences, thus, its goal is not only to present new results, but also to discuss research problems in the areas of interests of participants. Except of either presenting their recent results (as short talks and posters), or give a tutorial on recent scientific topics, participants are expected to actively discuss their current research interests with other participants. The number of participants is limited.
Place: Smolenice, Slovakia
Meeting website http://qute.sk/iquas/
Easing the Monte Carlo sign problem
Quantum Monte Carlo (QMC) methods are the gold standard for studying equilibrium properties of quantum many-body systems. However, in many interesting situations, QMC methods are faced with a sign problem, causing the severe limitation of an exponential increase in the runtime of the QMC algorithm. In this work, we develop a systematic, generally applicable, and practically feasible methodology for easing the sign problem by efficiently computable basis changes and use it to rigorously assess the sign problem. Our framework introduces measures of non-stoquasticity that—as we demonstrate analytically and numerically—at the same time provide a practically relevant and efficiently computable figure of merit for the severity of the sign problem. Complementing this pragmatic mindset, we prove that easing the sign problem in terms of those measures is generally an NP-complete task for nearest-neighbor Hamiltonians and simple basis choices by a reduction to the MAXCUT-problem.
Dominik Hangleiter, Ingo Roth, Daniel Nagaj and Jens Eisert
Science Advances 6, eabb8341 (2020)
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QETWORK APVV-14-0878, VEGA MAXAP 2/0173/17
S E M I N A R S
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Hamed Mohammady (Bratislava)
Stochastic quantum thermodynamics of projective measurements via coarse-grained trajectories
Sazim Sheikh (Bratislava)
Classical Communications with Indefinite Causal Order for N completely depolarizing channels
V I S I T O R S
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