This seminar is hosted by De Schutter Unit. "Ito cells : A novel cerebellar interneuron implicated in motor learning" by Prof. Professor George J. Augustine, Temasek Life Sciences Laboratory. Ctr Bldg-B503, at 14:00-15:00

Title: Well-Being and Communication: Exploring Social Interaction and Neurodiversity

Speaker: Rieko Osu (Waseda University)
Target audience: General audience / everyone at OIST and beyond. Freely accessible to all OIST members and guests without registration.

MLDS unit seminar, Makoto Yamada (OIST), PhiNets: Brain-inspired Non-contrastive Learning Based on Temporal Prediction Hypothesis

*Seminar Time Changed to 14:30-15:30*  Dr. Shinichiro Maruyama, Associate Professor, The University of Tokyo

Speaker: Prof. Masashi Misawa (Kumamoto University)

Title: Regularity for doubly nonlinear parabolic type equations

[Speaker] Prof. Izumi Saito, Associate Professor, Graduate School of Engineering, Nagoya Institute of Technology

Weekly QG group meeting.
Speaker: Mirian Tsulaia.
Title: "Cubic Action for Spinning Black Holes".

Title: Quantum Time-Dilation in Qubit Hypersurfaces

Abstract: The use of quantum spin systems to study the phenomenon of quantum time dilation leads to new insights into the quantum description of gravity. The basis of this description is the Page and Wootters mechanism, where entanglement between two quantum systems allows one to act as a clock for the other, influencing its time evolution. Intriguingly, when the clock system experiences a "gravitational-like interaction", the resulting time evolution can be described by a Time-Dilated Schrödinger equation. This equation includes a "redshift operator," a purely quantum effect that mimics gravitational time dilation. Here we discuss a novel, finite-dimensional framework in which a network of qubit systems can be used as a "global" clock for another non-interacting component of the universe. The result is the Time-Dilation induced Interaction Transfer (TiDIT) mechanism. TiDIT describes how time dilation due to the interaction of a qubit effectively changes the interaction between previously non-interacting parts of the universe. We will explore this concept with a practical example using two coupled qubits as a model for the quantum clock.

Dr Mykhaylo Usatyuk

Kavli Institute for Theoretical Physics, Santa Barbara

Seminar: Fostering Innovation from Science: Effective Academic-Industry Collaborations in Japan | Kenji Takeda, PhD | Chief Technology Officer, Corundum Innovation | 29 May 2024 | 3:00pm-4:00pm | Lab 5 D23