Dr. Anthony M. Bonacolta, Postdoctoral Reseasrch Fellow, The Keeling Lab, The University of British Columbia. 

Speaker: Davide Laurenzano (Oxford)
Title: Renormalization Group analysis of the Ising Model on Causal Dynamical Triangulations
Date and time: 30^th April Wedensay at 17:00
Location: L4F01
Language: English

The OIST Center for Quantum Technologies (OCQT) is pleased to invite you to another seminar in the OCQT Seminar series. This time, we are excited to host Dr. Andreas M. D. Thomasen from QunaSys. He will deliver a talk on:
"Architectures and algorithms for early FTQC"

TSVP visitor, Prof. Le Bin Ho, Tohoku University , will give a seminar "On the principle of quantum-enhanced multiphase metrology under the squeezing effect"

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

Language: English

Zoom link: https://oist.zoom.us/j/92164277280?pwd=EtClSiF0mouaCFNocZaC4b5hz3GTRa.1&from=addon

Join Zoom link

Target audience: Interns, Students, PostDocs, and Researchers interested in the field.
Language: English
Freely accessible to all OIST members and guests without registration (also via Zoom).

Prof. Akiyoshi Uemura

-Department of Ophthalmology and Visual Science, Nagoya City University Graduate School of Medical Sciences

-Uemura Eye Clinic

Prof. Martin Snoager Sloth, University of Southern Denamrk

Talk by Javier Rey Dominguez, PhD School of Electronic and electrical engineering, University of Leeds. Language: English, no interpretation. Open to OIST community.

Tomohito Noda

Ph.D. student The University of Tokyo, Graduate School of Science, Department of Biological Sciences

Fukatsu Lab at the National Institute of Advanced Industrial Science and Technology

Abstract: Intracellular symbiosis, in which a host organism harbors a microbial symbiont within its cells, has been widely observed across diverse lineages. This phenomenon is intriguing not only within the context of individual symbiotic relationships, but also more broadly, as the origins of mitochondria and chloroplasts are thought to trace back to microorganisms that were incorporated into host cells. Therefore, the study of intracellular symbiosis may provide insights to the understanding of a crucial trigger for the acquisition of novel biological functions and evolutionary modifications. Despite the wide interest in intracellular symbiosis, the mechanisms and adaptations required to harbor microbial symbionts remain largely elusive. One contributing factor is that the majority of symbiotic organs are highly specialized and distinct from the rest of the body, and thus lack a clear “non-symbiotic” subject to compare with.