Najbliższe seminaria

17 XI

Kinga Żołnacz (Wrocław University of Technology)

Fiber-based imaging: challenges and recent advances

Gdzie: A-1-13 AND MS Teams [ZOA-test], 12:15
Seminarium Zakładowe
Online: [link]

Pokaż pozostałe

[Abstrakt, pełna informacja]

Konferencje

06-10.09.2025 - A Panorama of Tensor Networks: from Condensed Matter to Quantum Field Theory, Holography and Beyond

More details on conference website.

01-15.09.2025 - Quantum Optics XI

Więcej szczegółów na stronie konferencji.

16-17.07.2025 - Time Crystals Conference 2025

More details on conference website.

20-22.02.2024 - Workshop on Quantum Simulators of the Future: From Dynamical Gauge Fields to Lattice Gauge Theories | (smr 3922)

An ICTP Meeting This Workshop will gather world-leading groups that design, realize, and characterize a new generation of simulators with ultracold atoms and beyond. It will address novel quantum simulators of statistical gauge fields, dynamical lattices, and lattice gauge theory models (LGT), as well as connections to quantum computing and tensor network methods. https://indico.ictp.it/event/10460

Konferencje

06-08.09.2023 - Konferencja "Time Crystals"

27.06-2.07.2022 - 6th Workshop on Algebraic Designs, Hadamard Matrices & Quanta

Więcej szczegółów on conference website.

05-11.09.2021 - Quantum Optics X

Więcej szczegółów na stronie konferencji.

Open Data

Current: /2106.04709/Bands

Arxiv link

bands_a.csv, bands_b.csv, bands_c.csv: quasienergies for panels a,b,c Fig 3. for parameters as in the figure: first column: quasimomentum $q \lambda_L$, subsequent columns, eigenvalues of Hamiltonian (2) for that value of $q$.

bands_d.csv: quasienergies for panel d Fig 3. for parameters as in the figure: first column: quasimomentum $q \lambda_L$, next four columns are quasienergies for the lowest band, further four for first excited, etc., up to third excited band. In all those four-column groups, first two columns are real and imaginary parts of a quasienergy from a folded branch corresponding to $q\lambda \in [-\pi, \pi]$ in $BZ_2$, and the last two -- real and imaginary parts for $q\lambda \in [-2\pi, -\pi] \cup [\pi, 2\pi]$.

[Parent Directory]

bands_a.csv	102kB
bands_b.csv	154kB
bands_c.csv	102kB
bands_d.csv	22kB