Conference
The project’s official conference “Participatory Reality and Quantum Measurement” will be hosted in collaboration with Marcelo Gleiser at Dartmouth College in Hanover, New Hampshire, USA, on the dates June 24-26, 2024. Attendance to the conference is invite-only, and in person only.
The conference will serve as an opportunity for participants to meet in person for intense discussions on research projects and ideas that will be presented by core project members. Besides project members, the conference audience will also comprise a select contingent of invited guests, both local and international, in order to bring an outside perspective on the nascent ideas being developed in the project, and to stimulate external collaborations. To ensure that there is plenty of time for discussions and collaborations, there will be no more than 5 talks on a given day.
Update July 2024: The conference has now ended. Thanks to all participants and speakers for making this conference a huge success!
FINAL program of speakers and talk tiTLES
Aguilar, Gabriel
• Synthesizing the Born rule with reinforcement learning
Appleby, Marcus
• Towards a QBist ontology
DeBrota, John
• Quantum Dynamics as a Normative Discipline
Frank, Adam
• Beyond the Quantum. QBism as a Theory of Science
Fuchs, Christopher
• Quantum Dynamics Happens Only on Paper
Healey, Richard
• Quantum Mechanics, Measurement and Objectivity
Moelmer, Klaus
• Quantum states of knowledge; beyond guessing the outcomes of future measurements
Pienaar, Jacques
• On the epistemology of quantum metrology: do quantum measurements reveal the truth, or do they produce it?
Sales, Antônio
• Experimental test of a measure of quantum irrealism
Schack, Ruediger
• QBism’s first-person perspective, other agents, and metrology
Tal, Eran
• Measurement, Prediction, and Fact
Timpson, Christopher
• Knowing your enemy: Metrology, Metaphysics, and Realism
de La Tremblaye, Laura
• Taking Others into Account in QBism
Wiltsche, Harald
• Why Not All Science is (Just) Decision Theory
Ye, Jun
• Measuring time with quantum uncertainty