The simulation of quantum physical systems promises to be among the first fields to demonstrate a superiority of quantum computing over classical methods. Achieving this milestone with potential disruptive impact on several industry branches requires a joint effort to develop both: efficient, practical quantum algorithms and fault-tolerant, error-corrected quantum computers.
This symposium brings together leading researchers and experts from academia and industry to explore recent advances and challenges in the development of fault-tolerant quantum systems and quantum algorithms for material science and quantum chemistry.
flaQship organizes this event as part of our activities in the Competence Center Quantum Computing Baden-Württemberg (KQCBW) together with the Center for Advanced Systems Understanding (CASUS), and the Heilbronn University of Applied Sciences (HHN). It is the 2026 edition of a series of symposia at the Heilbronn site of the Fraunhofer Research and Innovation Center for Application-oriented Quantum AI, which promotes knowledge exchange, strengthens professional networking, and supports the flow of knowledge to Baden-Württemberg and the dynamically developing quantum technology region of Heilbronn.
Call for Contributions
We invite contributions, both for talks and posters, showcasing your recent work and findings in fault-tolerant quantum algorithms, quantum error correction, as well as applied quantum computing for material science and/or quantum chemistry. Areas of interest include:
- Quantum computing for quantum chemistry
- Quantum computing for material science
- Quantum error correction and fault-tolerance
- Quantum algorithms for scientific computing
Submissions are possible from December 1, 2025 until March 15, 2026.
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