Dresden 2026 – wissenschaftliches Programm

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QI: Fachverband Quanteninformation

QI 21: Quantum Information: Concepts and Methods III

Freitag, 13. März 2026, 09:30–12:45, BEY/0245

	09:30	QI 21.1	Hauptvortrag: Non-Hermitian topology and directional amplification — •Clara Wanjura
	10:00	QI 21.2	Graph-State Gates as Scrambling Primitives: Entanglement Growth and Complexity in Quantum Circuits — •Zahra Raissi, Himanshu Sahu, Mario Flory, and Aranya Bhattacharya
	10:15	QI 21.3	Analysis of multi-detector quantum measurements via their cross-correlation polyspectra — •Armin Ghorbanietemad, Markus Sifft, and Daniel Hägele
	10:30	QI 21.4	Characterizing genuine multipartite high-dimensional entanglement with the partition rank — •Sophia Denker, Ismaël Septembre, Robin Krebs, and Otfried Gühne
	10:45	QI 21.5	Analyzing Classical vs Quantum Temporal Correlations in Discrete-Time Counting Processes — •Bita Olamaei, Pharnam Bakhshinezhad, and Giuseppe Vitagliano
	11:00		30min. break
	11:30	QI 21.6	Measurement-induced transitions in fermionic systems — •Ihor Poboiko, Igor Gornyi, and Alexander D. Mirlin
	11:45	QI 21.7	Efficient Entanglement Quantification with a Graph Neural Network — •Susanna Bräu, Martina Jung, and Martin Gärttner
	12:00	QI 21.8	Chaotic melting of superconducting quantum chips: Quantum chaos in effective Hamiltonians — •Lucas Resch and Juan Diego Urbina
	12:15	QI 21.9	Stabilizing Rényi entropy and entanglement distributions in unitary random circuits — Dominik Szombathy, Angelo Valli, Catalin Pascu Moca, Janos Asboth, Lorant Farkas, Tibor Rakovszky, and •Gergely Zarand
	12:30	QI 21.10	Quantitative bound entanglement in the Horodecki two-qutrit states — Gael Sentis and •Jens Siewert