PDF] On two strong converse theorems for discrete memoryless channels | Semantic Scholar
Amortized channel divergence for asymptotic quantum channel discrimination | SpringerLink
Identification over quantum broadcast channels | Quantum Information Processing
PDF] An Information-Spectrum Approach to Classical and Quantum Hypothesis Testing for Simple Hypotheses | Semantic Scholar
PDF] Discrimination of quantum states under locality constraints in the many-copy setting | Semantic Scholar
Optical quantum super-resolution imaging and hypothesis testing | Nature Communications
On the optimal certification of von Neumann measurements | Scientific Reports
PDF) Identification over quantum broadcast channels
PDF] Compression of sources of probability distributions and density operators | Semantic Scholar
Advances in quantum cryptography
Classical-quantum channel coding for optical communication | Download Scientific Diagram
On a gap in the proof of the generalised quantum Stein's lemma and its consequences for the reversibility of quantum resources – Quantum
PDF] A Low Degree Learning Algorithm for Quantum Data via Quantum Fourier | Semantic Scholar
Emeld fel magad szülő Elutasít strong converse for identification via quantum channels Gyengéden lánc Hatalmas
PDF] An improved rate region for the classical-quantum broadcast channel | Semantic Scholar
This plot shows direct and converse bounds on the extraction rate for n... | Download Scientific Diagram
Expansion properties of random Cayley graphs and vertex transitive graphs via matrix martingales - Christofides - 2008 - Random Structures & Algorithms - Wiley Online Library
Emeld fel magad szülő Elutasít strong converse for identification via quantum channels Gyengéden lánc Hatalmas
Entropy | Free Full-Text | Exponential Strong Converse for Successive Refinement with Causal Decoder Side Information
Quantum Dot-Conjugated SARS-CoV-2 Spike Pseudo-Virions Enable Tracking of Angiotensin Converting Enzyme 2 Binding and Endocytosis | ACS Nano
Identification of a unique Ca2+-binding site in rat acid-sensing ion channel 3 | Nature Communications