From 9th to 14th March 2025 the DPG Spring Meeting of the Section Atoms, Molecules, Quantum Optics and Photonics (SAMOP) will take place on the campus of the Rheinische Friedrich-Wilhelms-Universität Bonn. There, you will have the opportunity to delve deeper into the scientific approach and underlying principles of HQS software.
Hacky Hours Workshop
Set Up a Quantum Simulation from a Screenshot
Setting up quantum simulations can often be complex, requiring intricate parameter configurations and adherence to tool-specific conventions. In this workshop, the HQS Modeling Assistant will be introduced, a powerful tool that simplifies the process. Participants will learn how to generate simulation inputs effortlessly by:
Uploading a screenshot of an equation or quantum circuit
Using a chat-based interface to configure and run simulations
Analyzing results with generated plots and tables
By reducing the technical complexity, this tool allows researchers to focus on core scientific insights instead of cumbersome setup procedures. Join this hands-on session and explore how AI-driven assistance can streamline quantum simulations!
Presenter: Gregory Varghese Manalumbhagath, Senior Expert for Backend Development at HQS Quantum Simulations
Date & Time: Wednesday, 12/03, 11:45 – 12:30
Location: HS IAP
Talk: Developing a Framework for Predicting Useful Quantum Advantage in the Calculation of Molecule NMR Spectra
Demonstrating quantum advantage remains a key objective in the NISQ era, particularly for chemical simulations. This talk presents classical approximation methods for predicting NMR spectra of molecules, assessing their accuracy and computational cost across different parameter regimes. By identifying where classical methods fail, this work helps define the conditions under which quantum computing could outperform classical approaches, bringing us closer to practical quantum advantage.
Presenter: Jan Reiner, CSO & Co-Founder of HQS Quantum Simulations
Date: Wednesday, 12/03, 15:15–15:30
Location: HS IV
Talk: Demonstrations of system-bath physics on gate-based quantum computer
We develop a quantum algorithm that can be used to perform algorithmic cooling on noisy quantum computers. The approach utilizes inherent qubit noise to simulate the equilibration of an interacting spin system towards its ground state, when coupled to a simulated dissipative auxiliary-spin bath. We test the algorithm on IBM-Q devices and demonstrate the relaxation of system spins to ferromagnetic and antiferromagnetic ordering, controlled by the definition of the system Hamiltonian. The ordering is stable as long as the algorithm is run. We are able to perform cooling and state stabilization for global systems of up to three system spins and four auxiliary spins.
Presenter: Juha Leppäkangas, Senior Expert for Open Quantum Systems at HQS Quantum Simulations
Date: Tuesday, 11/03, 14:30-14:45
Location: HS II
Further Informations:
Scientific Programm of the DPG Annual Conference
Registration