Quantum Information and Quantum Computing Seminars

Quantum Information and Quantum Computing Seminars

Centrum Fizyki Teoretycznej PAN via YouTube Direct link

Yelena Guyanova (IQOQI, Vienna): Ideal Projective Measurements Have Infinite Resource Costs

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Yelena Guyanova (IQOQI, Vienna): Ideal Projective Measurements Have Infinite Resource Costs

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Quantum Information and Quantum Computing Seminars

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  1. 1 Lluis Masanes (UCL): Discrete conformal field theories with dual-unitary circuits
  2. 2 Marek Rams (IFT UJ): Quantum and Classical Simulations of Non-Equilibrium Quantum Many-Body Dynamics
  3. 3 Sophia Denker (University of Siegen): Chiral Symmetries of Multiparticle Entanglement
  4. 4 Remigiusz Augusiak (CTP PAS): Self-testing Quantum States and Measurements in Quantum Networks
  5. 5 D.Suruga (CTP PAS): Optimal sample complexities for learning functions on the unitary group,and more
  6. 6 Marco F. Asiani (Warsaw University): Magic states are rarely the most important resource to optimize
  7. 7 O. Leimkuhler (Univ. of Calif): Exponential Quantum Speedups in Quantum Chemistry With Linear Depth
  8. 8 Luna Lima e Silva (UFF Niteroi): Two-particle scattering on graphs
  9. 9 Solutions of heat equation on unitary groups: relation between ϵ-nets and approx. unitary t-designs
  10. 10 S. Khandelwal: Simulating quantum instruments w. projective measurements and quantum post-processing
  11. 11 L. Leppäjärvi (Jyväskylä U.): Simple Information Processing Tasks with Unbounded Quantum Advantage
  12. 12 Linear program for testing generalised contextuality: application for parity-oblivious multiplexing
  13. 13 Otavio Dantas Molitor (University of Gdańsk, Poland): Indefinite causal order and thermodynamics
  14. 14 K. Szczygielski (Gdańsk Univ.): Non-additivity of minimum output Rényi p-entropy of quantum channels
  15. 15 M. Gluza (Nanyang Tech.): Double-Bracket Quantum Algorithms for Quantum Imaginary-Time Evolution
  16. 16 K. Siudzińska: All classes of informationally complete symmetric measurements in finite dimensions
  17. 17 Julia Mathé (TU Wien, Austria): Estimating entanglement monotones in spin systems using symmetries
  18. 18 Asymptotic State Convertibility in Semigroup-Majorization based on Quantum Resource Theories
  19. 19 Victor D. A. Avella (Universidad de Antofagasta, Chile): Quantum State Tomography Beyond Ten Qubits
  20. 20 S. Designolle (Zuse Institute Berlin): Better bounds on Grothendieck constants of finite orders
  21. 21 Daniele Amato (University of Bari): Open-quantum-system asymptotics: A guided tour
  22. 22 Jakub Czartowski (Jagiellonian University): Cyclic projective t-designs and how to find them
  23. 23 K. Mrożek (IQM Quantum Comp.) Automatic calibration and benchmarking of IQM quantum processing units
  24. 24 Julio de Vicente (Universidad Carlos III de Madrid):Maximally entangled mixed states: do they exist?
  25. 25 Albert Rico (Jagiellonian University): Nonlocality of channels under decoherence
  26. 26 P. Kurzynski (Adam Mickiewicz University): Detection of Quantum Chaos with Quantum Hamming Distance
  27. 27 M. H. Mohammady (RCQI, IP SAS): Quantum measurements constrained by the third law of thermodynamics
  28. 28 Dr Chiranjib Mukhopadhyay (UESTC, Chengdu, China): Modular Many-Body Quantum Sensors
  29. 29 Lucas Tendick (Inria Paris-Saclay): Distributed Quantum Incompatibility
  30. 30 Dr. John Selby (University of Gdansk): Contextuality without incompatibility
  31. 31 Dr. Konrad Szymański (Universität Siegen): Reduction of noise effects in imperfect graph states
  32. 32 D. Chisholm: Distinguishing between redundancy and consensus when quantifying quantum objectivity
  33. 33 Dr. Tae-Hun Lee (CTP PAS): Objectivity in a boson-spin system
  34. 34 Mgr O. Makuta (CTP PAS):All genuinely entangled stabilizer subspaces are multipartite fully nonlocal
  35. 35 Dr Natália Móller (RCQI, IP SAS): Indefinite temporal order on a superposition of spherical shells
  36. 36 E. Borsuk (CFT PAN) Generation of entanglement in no-touching scenario: causal aspects and protocols
  37. 37 A. Oliveira (Jagiellonian U.): Geometric and information-theoretic aspects of quantum thermodynamics
  38. 38 Prof. Adán Cabello (Universidad de Sevilla): State-independent certification of quantum observables
  39. 39 Armin Tavakoli (Lund University): Detecting entanglement and steering without idealised measurements
  40. 40 Dr Jurij Volcic (Drexel University): Constant-sized self-tests for maximally entangled states
  41. 41 Gabor Drotos (Atomki, HAS): Self-testing of semisymmetric informationally complete measurements
  42. 42 S. Egelhaaf (Université de Genève): Certification of Entanglement Using Quantum Steering in Networks
  43. 43 G. Murta (Universität Düsseldorf):Self-testing with dishonest parties and entanglement certification
  44. 44 Sophia Denker (University of Siegen): Analyzing quantum entanglement with the Schmidt decomposition
  45. 45 Mgr Owidiusz Makuta (CTP PAS): A new definition of genuine multipartite nonlocality
  46. 46 Prof. Piotr Szańkowski (IF PAN): Objectivity of classical quantum stochastic processes
  47. 47 Dr P. Kopszak (University of Wrocław): Multi port-based teleportation — a group theoretic approach
  48. 48 Dr M. Takahashi (CTP PAS): Studies on the creation and destruction of coherence by quantum channels
  49. 49 Dr Giovanni Scala (University of Gdańsk): What is Nonclassical about Uncertainty Relations?
  50. 50 M. Plavala: Foundational problems, mathematical results and applications in quantum information
  51. 51 Dr Ravi Kunjwal (QuIC, ULB): Contextuality in composite systems: the role of entanglement
  52. 52 Adam Sawicki (Center for Theoretical Physics, PAS): Random approximate t-designs
  53. 53 C. Bertoni (FUB): Shallow shadows: expectation estimation using low-depth random Clifford circuits
  54. 54 A. Orthey (CTP PAS), Dynamical monitoring in higher dimensions and the emergence of physical realism
  55. 55 I. Roth (QRC-TII, UAE): General guarantees for randomized benchmarking with random quantum circuits
  56. 56 W.L. Ma (Ins. of Semicond., CAS): Asymptotics and typicality of sequential generalized measurements
  57. 57 Owidiusz Makuta (CTP PAS): Generation of graph states in quantum networks
  58. 58 Diego Garcia Martin (TII, Abu Dhabi, UAE): Algebraic Bethe Circuits
  59. 59 Gregory Boyd (University of Oxford): Training variational quantum circuits with CoVaR
  60. 60 Marcel Hinsche (FU Berlin): Learnability of the output distributions of local quantum circuits
  61. 61 Lluis Masanes (University College London): Does causal dynamics imply local interactions?
  62. 62 Matty Hoban (Quantinuum): Quantum networks self-test all entangled states
  63. 63 J. d. Vicente: Genuine multipartite entanglement and nonlocality in pair-entangled network states
  64. 64 M. Łobejko Towards reconciliation of completely positive open system dynamics with equilibration
  65. 65 Uttam Singh (CTP PAS): Oracle separations of hybrid quantum-classical circuits
  66. 66 Wojciech Górecki (FUW): Multiple-phase quantum interferometry
  67. 67 G. De las Cuevas: Quantum theory: From the whole to the parts, magic squares and shadows of infinity
  68. 68 C. Br-Pietro (Quant. Res. Centr.): Variational quantum architectures for linear algebra applications
  69. 69 Beata Zjawin (ICTQT): Inequality Constraints in Directed Acyclic Graphs with Hidden Variables
  70. 70 Daniel Brod (UFF Niteroi): (Bipartite) Gaussian Boson Sampling
  71. 71 A. Dawid (U. Warsaw): Hessian-based toolbox for interpretable and reliable machines learning physics
  72. 72 Laura Mancinska (QMATH, Copenhagen): Fixed-size schemes for certification of large quantum systems
  73. 73 L. Ligthart (University of Cologne): A convergent inflation hierarchy for quantum causal structures
  74. 74 Yelena Guyanova (IQOQI, Vienna): Ideal Projective Measurements Have Infinite Resource Costs
  75. 75 Hamed Mohammady (ULdB): Measurement disturbance and conservation laws in quantum mechanics
  76. 76 Shubhayan Sarkar (CTP PAS): Certification of quantum systems using quantum steering
  77. 77 Adrián Solymos (Eötvös Loránd University): Extendibility of quantum states
  78. 78 Z. Gavorova (The Hebrew University): Controlled-unitary is impossible in the quantum circuit model
  79. 79 Y-L Len (C. for Quantum Optical Technologies, CENT UW) Quantum Metrology with Imperfect Measurements
  80. 80 Oskar Słowik: Designing locally maximally entangled quantum states with arbitrary local symmetries
  81. 81 Michał Eckstein (Jagiellonian University): Quantum Optimal Transport
  82. 82 Marek Gluza (Freie Universität Berlin): Fidelity witnesses
  83. 83 Grzegorz Rajchel-Mieldzioć (CTP PAS): Classical to quantum transition using bistochastic matrices
  84. 84 D. Reitzner (SAS): General Measurements with Limited Resources and Their Application
  85. 85 Nikolai. Miklin: Quantifying causal influences in the presence of a quantum common cause
  86. 86 E. F. Galvão (UFF & IINL): Measuring the projective-unitary invariant properties of a set of states
  87. 87 D.Chruściński: On the universal constraints for relaxation rates for quantum dynamical semigroup
  88. 88 A. Szymusiak (JU): Morphophoric quantum measurements, generalised qplexes, and 2-designs
  89. 89 Michael R. Geller (University of Georgia): Quantum Error Mitigation for SPAM
  90. 90 M. Quintino (University of Vienna): Universal protocols for transforming unitary quantum operations
  91. 91 K. Horodecki (ICTQT & UG): Upper bounds on the rate in device-independent quantum key distribution
  92. 92 D. Wierichs (University of Cologne): Avoiding local minima in variational quantum eigensolvers
  93. 93 Marcin Markiewicz (ICTQT): On construction of t-designs for SL(2, C) via its Cartan decomposition
  94. 94 Anicet Tibau Vidal: Fermions are local-realistic
  95. 95 Chandan Datta (CENT UW): Entanglement-assisted perfect discrimination of quantum measurements
  96. 96 Katarzyna Roszak: A measure of qubit environment entanglement for pure dephasing evolutions
  97. 97 Ninnat Dangniam: Optimal verification of stabilizer states
  98. 98 Carlo Maria Scandolo: The universal structure of objective states in all fundamental causal theories
  99. 99 Tomasz Maciążek: Fundamental aspects of Topological Quantum Computing on quantum wire networks
  100. 100 Ingo Roth: Semi-device-dependent blind quantum tomography
  101. 101 Alexandra Moylett: Photon distinguishability and loss: Quantum decoherence & classical simulation
  102. 102 M.Malinowski: Trapped ion quantum computing: Introduction, recent progress and paths to scalability.
  103. 103 Paweł Mazurek: Quantum error correction codes and absolutely maximally entangled states
  104. 104 M.Studziński: Efficient benchmarking and classical simulation of quantum processes in the Weyl basis
  105. 105 Bartłomiej Gardas: Parallel in time dynamics with quantum annealers
  106. 106 Felix Huber: Positive maps and Matrix Contractions from the Symmetric Group
  107. 107 Frederik Wilde: Stochastic Gradient Descent for Hybrid Quantum-Classical Optimization
  108. 108 M. Gachechiladze: Changing the circuit-depth complexity of measurement-based quantum computation
  109. 109 D. Kwiatkowski: Observing environment around nitrogen-vacancy centers through spin echo decoherence
  110. 110 Travis Humble: Accelerating Scientific Computing Using Today’s Quantum Computers
  111. 111 Rafał Demkowicz Dobrzański: From Quantum Error-Correction to Quantum Metrology and Back
  112. 112 Matteo Lostaglio: Certifying quantum signatures in thermodynamics via contextuality

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