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Target audience: Interns, Students, PostDocs, and those who are interested in the same research field.
Language: English

Seminar, as part of Thematic Program on Response Diversity
Language: English (no interpretation). Target audience: General audience / everyone at OIST and beyond. Freely accessible to all OIST members and guests without registration (also via Zoom).

Join Zoom link

Target audience: Interns, Students, PostDocs, and those who are interested in the same research field.
Language: English

Seminar by Prof. Orailoglu (UCSD). Algorithm-Centric Design of Reliable and Efficient Deep Learning Processing Systems

Speaker: Prof. Ryoma Kamikawa, Graduate School of Agriculture, Kyoto University 

Title:

The Discrete Dirac operator and the mass of simple and higher-order networks

Abstract:

We discuss the properties of the discrete Dirac operator on simple and higher-order and its relevance to capture the coupled dynamics topological signals defined on nodes, links of graphs and even higher dimensional simplices.

We will show how the Dirac operator can be coupled with the algebra of gamma matrices to define a Dirac field theory in discrete Lorentzian spacetime in  which the spinor is given a geometrical interpretation. The field theory also includes metric degree of freedom interpreted as the weights of the links for which we can define an action. 

We use the discrete topological Dirac operator to define an action for a massless self-interacting topological Dirac field inspired by the Nambu–Jona-Lasinio model. We propose a theoretical framework that explains how the mass of simple and higher-order networks emerges from their topology and geometry. The mass of the network is strictly speaking the mass of this topological Dirac field defined on the network; it results from the chiral symmetry breaking of the model and satisfies a self-consistent gap equation. Interestingly, it is shown that the mass of a network depends on its spectral properties, topology, and geometry.

Dr. Junichi Ikenouchi

Department of Biology, Faculty of Sciences, Kyushu University

Title: Guiding Light to Non-Classicality

Speaker: Dr Philipp Schneeweiss, Humboldt University, Germany

[Seminar] “Axonal transport disfunctions in neurodegenerative diseases” by Prof. Giampietro Schiavo

The OIST Center for Quantum Technologies (OCQT) cordially invites to a seminar featuring:

Speaker: Noriaki Horiuchi, PhD

Affiliation: Senior Editor, Springer Nature, Japan

Title: What Nature Photonics looks for

We look forward to your participation.