We are excited to announce the upcoming MAPS Symposium on the Philosophy of Quantum Mechanics, taking place at NYU on April 25th from 3pm-7pm. The event will feature talks from Eddy Chen, Emily Adlam, and Tim Maudlin. Further details can be found below.
Talks:
- Eddy Chen (UCSD): “The Wentaculus”
- Emily Adlam (Rotman Institute UWO): “The Temporal Asymmetry of Influence is Not Statistical.”
- Tim Maudlin (NYU): “Nonlocality”
Please note that while all are welcome to attend, non-NYU attendees must RSVP by emailing Diego Arana (da689@rutgers.edu) and Barry Loewer (loewer@philosophy.rutgers.edu) to ensure their names are added to the entry list for the NYU building. For any further information, please contact us through the emails just provided.
Presented by Metro Area Philosophers of Science
Directions: Enter the Philosophy building at 5 Washington Place, and have a university ID and vaccination card ready. For any questions, please contact Diego Arana (da689@rutgers.edu), Barry Loewer (loewer@philosophy.rutgers.edu) and Jack Mikuszewski (jhm378@nyu.edu).
Metro Area Philosophers of Science is pleased to announce the following confirmed talks this semester:
Heinrich Päs (TU Dortmund University)
4:00 p.m. EST, Sept 6th
Location: 6th-floor lounge, Philosophy Department, NYU, 5 Washington Place
Title: TBA
Eric Y Ling (University of Copenhagen)
4:00 p.m. EST, Sept 26th *
Location: TBA
Title: Spacetime extensions of the big bang
Lev Vaidman (Tel Aviv University)
Title: TBA
Further details to be announced.
Isaac Willhelm (National University of Singapore)
Title: TBA
Further details to be announced.
The controversial issue of information transfer in quantum teleportation procedure is analyzed in the framework of the many-worlds interpretation of quantum mechanics. In contrast to the claims of Deutsch & Hayden 2000, it is argued that quantum information, considered as a measurable property for an observer in a particular world, is transferred in a nonlocal way in the teleportation process. This, however, does not lead to action at a distance on the level of the universe which includes all parallel worlds. Preprint: https://philsci-archive.pitt.edu/21447/