quantum-computing

Dissipation-assisted quantum technologies

Quantiki

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⚡ Quantum Brief

A three-day conference in Palma de Mallorca (September 30–October 2, 2026) will unite global experts on dissipation-assisted quantum technologies, bridging theory and experiment to accelerate breakthroughs in quantum computing, sensing, and non-equilibrium physics. Key topics include dissipative quantum computing, reservoir computing, and nonequilibrium sensing—like time crystals and phase transitions—highlighting how dissipation can enhance quantum system stability and functionality rather than degrade it. Early-career researchers are prioritized, with open submissions for talks and posters until March 31, 2026, and registration closing June 14, 2026, fostering cross-disciplinary collaboration among physicists, engineers, and computer scientists. The event explores enabling phenomena such as quantum thermodynamics, synchronization, and measurement-induced transitions, positioning dissipation as a tool for next-gen quantum devices and biological quantum effects. Oral and poster sessions will showcase advances in multi-parameter estimation, continuous monitoring, and associative memories, framing dissipation as a paradigm shift in quantum technology design.

Dissipation-assisted quantum technologies

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Dissipation-assisted quantum technologies Acronym: DQUTDates: Wednesday, September 30, 2026 to Friday, October 2, 2026Web page: https://dqut-conference.ifisc.uib-csic.esRegistration deadline: Sunday, June 14, 2026Submission deadline: Tuesday, March 31, 2026Tags: quantum computationquantum machine learningquantum sensingNon-Equilibrium PhenomenaEnabling TechnologiesThe DQUT Conference (Palma de Mallorca, Spain, September 30th – October 2nd, 2026) will bring together researchers working on dissipation-assisted quantum technologies and related areas of quantum physics, ranging from fundamental questions to emerging technological applications. The meeting aims to provide a forum to discuss recent advances, exchange ideas, and explore new research directions by bringing together scientists from both theoretical and experimental backgrounds, fostering interaction across different approaches and encouraging new collaborations within the community. Topics include, but not restricted to: Quantum computation and machine learning: dissipative state engineering, dissipative quantum computing, quantum reservoir computing, associative memories. Quantum sensing: critical and nonequilibrium quantum sensing (including dissipative phase transitions, time crystals, and other nonequilibrium phases), multi-parameter estimation, and sensing via continuous monitoring. Enabling phenomena: dissipative and measurement-induced phase transitions, collective effects in driven-dissipative quantum systems, synchronization, time crystals and other nonequilibrium phases, quantum thermodynamics, quantum biology. Participation is open to everyone, and we especially encourage young researchers and early-career scientists to attend, present their work, and engage with the community. The conference will include oral presentations and poster sessions. Log in or register to post comments

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