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07 XJózef Spałek (Jagiellonian University)
Emergence of distinguishability in quantum statistics of strongly correlated fermions
Location: MS Teams [ZOA-test], 12:15
Department Seminar
Online: [link]
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[Abstract, more info]

Conferences

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

06-08.09.2023 - Time Crystals Conference

More details on conference website.

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

More details on conference website.

05-11.09.2021 - Quantum Optics X

More details on conference website.

Open Data

Current: /2203.15697

Arxiv link

We study many-body localization (MBL) transition in disordered Kicked Ising model using a polynomially filtered exact diagonalization (POLFED) algorithm. We quantitatively demonstrate that finite size effects at the MBL transition in disordered Kicked Ising model are less severe than in random field XXZ spin chains widely studied in the context of MBL. This allows us to observe consistent signatures of the transition to MBL phase for a several indicators of ergodicity breaking. We show that an assumption a power-law divergence of the correlation length at the MBL transition yields a critical exponent ν ≈ 2, consistent with the Harris criterion for 1D disordered systems.

The datasets described below were used to produce all figures in the linked arXiv paper.

Figure 1. The ergodic-MBL crossover in Kicked-Ising Model. Jupyter notebook creating plots of Fig. 1 is fig1.ipynb; it employs data stored in directory ./fig1/

Figure 2. Finite size scaling analysis of ergodic-MBL crossover in Kicked Ising Model. Jupyter notebook creating plots of Fig. 2 is fig2.ipynb; it employs data stored in directory ./fig2/

Figure S3. The average gap ratio and the rescaled entanglement entropy as functions of disorder strength W for Kicked Ising model. Jupyter notebook creating plots of Fig. S3 is figS3.ipynb; it employs data stored in directory ./figS3/

Figure S4. The average quantum mutual information in Kicked Ising Model. Jupyter notebook creating plots of Fig. S4 is figS4.ipynb; it employs data stored in directory ./figS4/

Figure S5. The average Schmidt gap and spin stiffness as functions of disorder strength W in Kicked Ising Model. Jupyter notebook creating plots of Fig. S5 is figS5.ipynb; it employs data stored in directory ./figS5/

Figure S6. 6. The disorder strength WT for various choices of the threshold pX compared with the crossing point. Jupyter notebook creating plots of Fig. S6 is figS6.ipynb; it employs data stored in directory ./figS6/

Figure S7. Supplementary data for finite size scaling analysis of ergodic-MBL crossover in Kicked Ising Model. Jupyter notebook creating plots of Fig. S7 is figS7.ipynb; it employs data sets stored in directory ./figS7/

[Parent Directory]
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fig1.ipynb196kB
fig2.ipynb140kB
figS3.ipynb148kB
figS4.ipynb109kB
figS5.ipynb205kB
figS6.ipynb67kB
figS7.ipynb103kB