Volume 287
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Black Hole Recorder was exhibited at the art event DIG SHIBUYA from January 12th to 14th, 2024
2024-01-22
iTHEMS exhibited "Black Hole Recorder”, a science art work based on quantum black hole theory created in 2021 with outside creators, as a program within the art event "DIG SHIBUYA” at the Shibuya Workers’ Welfare Hall for three days from January 12 (Fri.) to 14 (Sun.). The entire event was organized by the SHIBUYA CREATIVE TECH Executive Committee in cooperation with the Shibuya City, and "Black Hole Recorder” was selected as a collaborative project through an open call for proposals.
The exhibition was held in a dark room with the "Black Hole Recorder” set up in the middle of the room, and visitors were invited to enter with a flashlight to illuminate their feet and view the works with explanations. The entire venue was an experimental space, and the "Black Hole Recorder” constantly recorded all the sounds in the venue. For the first time, a booth was set up to allow visitors to listen to environmental sound data recorded from the very experimental space where the "Black Hole Recorder” was exhibited in the past, allowing them to enjoy the experience of listening to the past.
The exhibition was held at a facility located in the city of Shibuya, where many people (close to 300 in total) gather, and many visitors were able to view and experience the exhibition on a holiday day. Depending on the time of day, the venue was sometimes quite crowded. Through the artworks, many visitors became interested in black holes and their theories, and I believe that many of them left with an image of a black hole. Detailed explanations of the theory using a blackboard by researcher Yuki Yokokura and program director Tetsuo Hatsuda were also well received. The response was also positive due to the sense of time and scale regarding the plan to send recorded sounds to a black hole via radio waves in the future in order to deliver the sounds of humanity far into the future. Exhibiting at an art event in the city provided an opportunity to bring the results of our research to people who are not usually interested in science, and we felt that this was a good opportunity to make progress in the future.
Upcoming Events
Seminar
iTHEMS Biology Seminar
Competition across scales in biology
January 31 (Wed) at 11:00 - 12:00, 2024
Sidhartha Goyal (Associate Professor, Department of Physics, University of Toronto, Canada)
Many biological phenomena emerge from interaction and competition between its parts. I will share some examples across biological scales where data-driven theory can reveal new rules of biological competition. At the molecular scale competition between mitochondrial genomes within budding yeast depends on genome architecture; dynamics of adaptive immunity in microbes reveal different modalities of competition and coexistence of bacteria and its phages; in mammals cellular reprogramming may be driven by elite clones, and tumor response to drugs is driven by "epigenetic" switching. Going beyond, I will present some ideas on understanding dynamical systems that govern cell fate dynamics and if competition may play a role in it.
Short bio:
Sidhartha Goyal got his PhD in Physics at Princeton in 2009 and then moved to Kavli Institute for Theoretical Physics, Santa Barbara for a postdoc. He got his first degree in Electrical Engineering from IIT Bombay. He is now an Associate Professor in the Physics Department at University of Toronto interested in collective phenomena in biology across scales.
Venue: via Zoom
Event Official Language: English
Conference
Co-hosted by iTHEMS
Can social issues be solved by mathematical science!? - Mathematical Research in Corporations
February 3 (Sat) at 13:00 - 17:00, 2024
Continuing from the previous fiscal year, we will be hosting a symposium exploring the potential of solving societal issues through mathematical science research. In the past two years, the themes were "Attempts and Challenges" and "Connecting Corporate Issues and Mathematical Sciences." This year, we will focus on concrete examples under the title "Mathematical Research in Corporations" with the aim of introducing activities utilizing mathematics in the corporate sector.
Currently, we are inviting speakers with diverse backgrounds, including researchers actively engaged in mathematical activities within corporations or those who have transitioned from corporate mathematical research to academic settings. We are particularly interested in learning about the experiences of individuals who have used mathematics in corporate settings.
Additionally, there has been a growing trend in connecting activities of graduate students in mathematics with corporate endeavors. By sharing such initiatives with participants, we plan to conduct a panel session for exchanging opinions on the role of mathematical science in addressing societal issues through corporate collaboration in the future.
We sincerely look forward to the active participation of corporate researchers and mathematicians who have an interest in these activities.
Venue: Hybrid Format (Noyori Conference Hall, Nagoya University and Zoom)
Event Official Language: Japanese
Seminar
iTHEMS Theoretical Physics Seminar
Nuclear Energy-Density Functional Approach to Bridging Neutron-Rich Nuclei and Neutron Stars
February 5 (Mon) at 13:30 - 15:00, 2024
Kenichi Yoshida (Associate Professor, Research Center for Nuclear Physics, Osaka University)
Understanding the properties of neutron-rich nuclei has been a central subject in low-energy nuclear physics. The great interest lies not only in the pursuit of a variety of structures and the elucidation of the mechanisms of their occurrence but also in obtaining insights into the structure of the inner crust of neutron stars. With advances in neutron-star observation techniques, the structure of neutron stars has been becoming better understood. The data accumulated from these observations unveil properties of neutron-rich matter that are otherwise inaccessible through terrestrial experiments.
In this talk, I will introduce an attempt to construct a nuclear energy-density functional (EDF) inspired by the observations and then demonstrate its applicability to nuclear structure problems, including mass and deformation. One intriguing aspect of neutron stars is the emergence of superfluidity, especially the occurrence of spin-triplet pairing. I will discuss the unconventional pairing in nuclei within the nuclear EDF framework and give perspectives on the study of the phase diagram of the superfluidity in neutron stars.
This seminar is co-hosted by UKAKUREN.
Venue: Seminar Room #359, 3F Main Research Building, RIKEN / via Zoom
Event Official Language: English
Workshop
Second Workshop on Fundamentals in Density Functional Theory (DFT2024)
February 20 (Tue) - 22 (Thu), 2024
The density functional theory (DFT) is one of the powerful methods to solve quantum many-body problems, which, in principle, gives the exact energy and density of the ground state. The accuracy of DFT is, in practice, determined by the accuracy of an energy density functional (EDF) since the exact EDF is still unknown. Currently, DFT has been used in many communities, including nuclear physics, quantum chemistry, and condensed matter physics, while the fundamental study of DFT, such as the first principle derivations of an accurate EDF and methods to calculate many observables from obtained densities and excited states. However, there has been little opportunity to have interdisciplinary communication.
On December 2022, we had the first workshop on this series (DFT2022) at Yukawa Institute for Theoretical Physics, Kyoto University, and several interdisiplinary discussions and collaborationd were started. To share such progresses and extend collaborations, we organize the second workshop. In this workshop, the current status and issues of each discipline will be shared towards solving these problems by meeting together among researchers in mathematics, nuclear physics, quantum chemistry, and condensed matter physics.
This workshop mainly comprises lectures/seminars on cutting-edge topics and discussion, while a half-day session composed of contributed talks is also planned.
This workshop is partially supported by iTHEMS-phys Study Group. This workshop is a part of the RIKEN Symposium Series.
The detailed information can be found in the workshop website.
Venue: 8F, Integrated Innovation Building (IIB), Kobe Campus, RIKEN / via Zoom
Event Official Language: English
Colloquium
iTHEMS Colloquium
The New World of Spin Zero - Some Novel Approaches at QUP for Experimental Particle Cosmology -
May 28 (Tue) at 13:30 - 15:00, 2024
Masashi Hazumi (Director, Professor, International Center for Quantum-field Measurement Systems for Studies of the Universe and Particles (QUP), High Energy Accelerator Research Organization (KEK))
Particle cosmology is a discipline seeking a fundamental understanding of the Universe based on particle physics. Five mysteries drive our research today: cosmic inflation, baryon asymmetry, neutrino properties, dark matter, and dark energy.
Resolving any of the five mysteries will revolutionize our picture of the Universe. Numerous interesting theoretical hypotheses have been proposed to this end. Many require new scalar quantum fields, such as inflatons, axions, supersymmetric particles, etc. They are, in a sense, an attempt to expand the role of the vacuum. Since we have not found such spin-zero fields yet, we shall invent new eyes to make an experimental or observational breakthrough.
The International Center for Quantum-field Measurement Systems for Studies of the Universe and Particles (QUP) was established in December 2021 at KEK under the WPI program of MEXT and JSPS. With its tagline of "bring new eyes to humanity," one of the primary missions of QUP is inventing and developing such new eyes for particle cosmology. In this seminar, after briefly introducing QUP, I focus on research topics I have contributed, including the LiteBIRD satellite to study inflatons and light scalar quantum field searches with novel methods using quantum sensing techniques.
Venue: Okochi Hall, 1F Laser Science Laboratory, RIKEN / via Zoom
Event Official Language: English
Seminar
ABBL-iTHEMS Joint Astro Seminar
Do plants have bones? Silica phytoliths and their role and fate in the development of terrestrial plants and human civilizations
March 1 (Fri) at 14:00 - 15:15, 2024
Mikhail Blinnikov (Professor, St. Cloud State University, USA)
Silicon is the second most common element in the Earth’s crust. Some families of higher plants evolved mechanisms for soluble silica to be carried by xylem from groundwater and deposited as plant opal in or around plant cells as phytoliths thought to play a role in the structural support and defense against herbivores. While known since the early 19th century, phytoliths remain an intriguing class of microfossils whose formation and role in plants and their preservation in soils and sediments are a subject for a lot of active research. I outline some emerging themes in phytolith analysis including phytoliths’ role in global biogeochemical cycles, plant-herbivore interactions, and their tracing of evolution of cultural plants, especially cereals such as rice (Oryza), wild rice (Zizania), maize (Zea), wheat (Triticum) and millet (Panicum), all relevant to global archaeology. Some emerging research on phytoliths connects their changes in shapes to plant taxonomy of some families such as grasses and opens up avenues for further investigation of their active construction in the cells of some taxa by yet undiscovered genetically mediated mechanisms. New image analysis techniques and some advanced microscopy methods will allow us to further the field of phytolith study using deep machine learning algorithms and true 3D analysis of their shapes, something where contribution from other branches of science are most welcome.
Venue: Seminar Room #359, 3F Main Research Building, RIKEN / via Zoom
Event Official Language: English
Paper of the Week
Week 4, January 2024
2024-01-25
Title: Toward QCD on Quantum Computer: Orbifold Lattice Approach
Author: Georg Bergner, Masanori Hanada, Enrico Rinaldi, Andreas Schafer
arXiv: http://arxiv.org/abs/2401.12045v1
Title: Multipole and fracton topological order via gauging foliated SPT phases
Author: Hiromi Ebisu, Masazumi Honda, Taiichi Nakanishi
arXiv: http://arxiv.org/abs/2401.10677v1
Title: Computations of HOMFLY homology
Author: Keita Nakagane, Taketo Sano
arXiv: http://arxiv.org/abs/2111.00388v2
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