Volume 274

iTHEMS Weekly News Letter

Press Release

Yan Lyu thumbnail
Takumi Doi thumbnail
Tetsuo Hatsuda thumbnail

"Genuine Tetraquark" Consisting of Four Quarks - Supercomputer Fugaku unravels a new particle discovered in accelerator experiment -

2023-10-26

The international research group including Yan Lyu (former Student Trainee from Peking Univ., iTHEMS), Takumi Doi (Senior Research Scientist, iTHEMS) and Tetsuo Hatsuda (Program Director, iTHEMS) has theoretically unraveled the properties of the genuine tetraquark state Tcc, composed of four quarks. This research achievement is expected to contribute to the understanding of a fundamental question in modern physics: how quarks, the elementary particles, can combine to form new states of matter.

For more details, please refer to the press release article in the related link.

Reference

  1. Yan Lyu, Sinya Aoki, Takumi Doi, Tetsuo Hatsuda, Yoichi Ikeda and Jie Meng, Doubly Charmed Tetraquark $T^+_{cc}$ from Lattice QCD near Physical Point, Phys. Rev. Lett. 131, 161901 (2023), doi: 10.1103/PhysRevLett.131.161901, arXiv: 2302.04505

Award

Takeru Yokota thumbnail

Takeru Yokota received 18th Young Scientist Award

2023-10-27

Takeru Yokota (SPDR, iTHEMS) received 18th Young Scientist Award (Theoretical Nuclear Physics) from The Physical Society of Japan for his "Construction of energy density functional with functional-renormalization-group method".Congratulations, Takeru!

Award

Hidetoshi Taya thumbnail

Hidetoshi Taya received 18th Young Scientist Award

2023-10-27

Hidetoshi Taya (SPDR, iTHEMS) received 18th Young Scientist Award (Theoretical Nuclear Physics) from The Physical Society of Japan for his "Fundamental research on cooperative phenomena in perturbative and nonperturbative particle production processes under electric fields". Congratulations, Hidetoshi!

Award

Seishiro Ono received 7th Young Researcher Incentive Award

2023-10-27

Seishiro Ono (SPDR, iTHEMS) received 7th Young Researcher Incentive Award from High-Temperature Superconducting Forum for his "Comprehensive study of symmetry and topology in superconductors". Congratulations, Seishiro!

Researches & Researchers

Hiroyasu Miyazaki thumbnail

Refining Number Theory Geometry through Inspiration from Researchers in Different Fields - Hiroyasu Miyazaki

2023-10-27

What comes to mind when you hear the term "mathematical researcher"? Is it an image of someone shut away in a room, tirelessly conducting research? While this may be one side of a mathematician's life, discussions and communication with others can also lead to insights and problem-solving breakthroughs. Senior Research Scientist Hiroyasu Miyazaki believes that being in the interdisciplinary environment of iTHEMS has greatly expanded his perspective.

Upcoming Events

Workshop

International Workshop on Blockchain Technology: Blockchain Kaigi 2023 (BCK23) thumbnail
SUURI-COOL (Kobe) venue photo

International Workshop on Blockchain Technology: Blockchain Kaigi 2023 (BCK23)

October 28 (Sat) - 29 (Sun), 2023

The International workshop Blockchain Kaigi (Kaigi: Meeting, Conference) aims to bring together researchers and practitioners from various communities of science and technology working on areas related to FinTech, crypto-asset, and blockchain.

On February 17th – 18th of 2021 the international workshop “Blockchain in Kyoto 2021 (BCK21)” was held at Kyoto University, and the following year on August 4th – 5th the international workshop “BCK22: Blockchain Kaigi 2022” was held at Tohoku University, both gathered many participants from all over the world and ended successfully. As the third step, the international workshop “BCK23: Blockchain Kaigi 2023” will be held on October 28th -29th, 2023 at RIKEN’s Kobe Campus (Kobe City).

Topics for this international conference include, but are not limited to the following.

Crypto assets, cryptocurrencies
Blockchain technology, cryptography/mathematics
B2B and B2C solutions
Anomaly detection, cyber security
Digital Asset Market, Central Bank Digital Currency CBDC
smart contract
Application to energy and environmental problems
Application to financial inclusion, remittance and digital identity
Innovation policy
Legal and regulatory issues
Network Science, Graph Theory, Mathematics of Hypergraphs

Venue: 8F, SUURI-COOL (Kobe), #S704-S705, Integrated Innovation Building (IIB), Kobe Campus, RIKEN

Event Official Language: English

Seminar

 thumbnail

iTHEMS Biology Seminar

Mathematical modelling of the host response to inhalational anthrax across different scales

October 31 (Tue) at 16:00 - 17:00, 2023

Bevelynn Williams (Postdoctoral Fellow, School of Mathematics, University of Leeds, UK)

Inhalational anthrax, caused by the bacterium Bacillus anthracis, is a disease with very high fatality rates. Due to the significant risk posed if the bacterium was to be intentionally used as a bioweapon, it is important to be able to defend against such an attack and to make optimal decisions about treatment strategies. Mechanistic mathematical models can help to quantify and improve understanding of the underlying mechanisms of the infection. In this talk, I will present a multi-scale mathematical model for the infection dynamics of inhalational anthrax. This approach involves constructing individual models for the intracellular, within-host, and population-level infection dynamics, to define key quantities characterising infection at each level, which can be used to link dynamics across scales. I will begin by introducing a model for the intracellular infection dynamics of B. anthracis, which describes the interaction between B. anthracis spores and host cells. The model can be used to predict the distribution of outcomes from this host-pathogen interaction. For example, it can be used to estimate the number of bacteria released upon rupture of an infected phagocyte, as well as the timing of phagocyte rupture and bacterial release. Next, I will show how these key outputs can be used to connect the intracellular model to a model of the infection at the within-host scale. The within-host model aims to provide an overall understanding of the early progression of the infection, and is parametrised with infection data from studies of rabbits and guinea pigs. Furthermore, this model allows the probability of infection and the time to infection to be calculated. Building a model that offers a realistic mechanistic description of these different animal responses to the inhalation of B. anthracis spores is an important step towards eventually extrapolating the model to describe the dynamics of human infection. This would enable predictions of how many individuals would become infected in different exposure scenarios and also on what timescale this would occur.

Venue: via Zoom / Hybrid Format (3F #359 and Zoom), Main Research Building, RIKEN

Event Official Language: English

Seminar

iTHEMS Theoretical Physics Seminar

Compact Star Solutions Beyond General Relativity

November 7 (Tue) at 13:30 - 15:00, 2023

Kota Numajiri (Ph.D. Student, Graduate School of Science, Nagoya University)

The neutron star solutions have been gathering attention. Their high compactness enables us to observationally access the information about extreme regimes of hadron physics. On the other hand, their strong gravity features bring up another possibility, gravity beyond general relativity (GR).
Although GR has been a great success until now, the present scenario for our universe still has several problems, such as dark sectors and the quantum description of gravity. To tackle these problems, the modified gravity theories have been discussed for decades. Their modifications are expected to become noticeable in strong gravity regimes like compact stars.
In this talk, I will discuss the configuration of the compact star solution under the F(R) gravity, one of the most popular and simplest modifications of GR. The background hydrostatic solutions are calculated with some F(R) models, which show non-trivial influences from the additional scalar DOF in this theory. The tidal deformation phenomenon is also considered to focus on another observable, tidal deformability. I will comment on how to utilize obtained observables to determine the gravity theory and the unknown equation of state simultaneously.

Venue: Seminar Room #359, 3F Main Research Building, RIKEN / via Zoom

Event Official Language: English

Seminar

Math-Phys Seminar

Vortex Reconnection in Classical and Quantum Fluids

November 10 (Fri) at 15:00 - 16:30, 2023

Yoshifumi Kimura (Professor, Graduate School of Mathematics, Nagoya University)

As a fundamental process in turbulence, vortex reconnection has been studied widely not only in classical fluids but also in quantum fluids. For the latter, the first real observation of vortex reconnection was rather recent, and since then active analyses have been continued. On the other hand, vortex reconnection in the former has a long history, and it is now studied intensively as a candidate for a solution to the problem of the regularity/Singularity of the Navier-Stokes equations, which is one of the seven millennium prize problems of the Clay Mathematical Institute.
In this talk, after introducing the problem, we will present some results of analysis and simulations of the dynamical system which has been proposed to describe a vortex reconnection of two vortex rings located symmetrically on two tilted planes [1], [2], [3]. Then it will be shown that this dynamical system can be written in noncanonical Hamiltonian form with Hamiltonian, H, and a Casimir invariant, C in the limit of zero viscosity [4].

References

  1. H.K. Moffatt and Y. Kimura, Towards a finite-time singularity of the Navier-Stokes equations. Part 1. Derivation and analysis of dynamical system, J. Fluid Mech. 861, 930 (2019), doi: 10.1017/jfm.2018.882
  2. H.K. Moffatt and Y. Kimura, Towards a finite-time singularity of the Navier-Stokes equations. Part 2. Vortex reconnection and singularity evasion, J. Fluid Mech. 870, R1 (2019), doi: 10.1017/jfm.2019.263
  3. H.K. Moffatt and Y. Kimura, Towards a finite-time singularity of the Navier-Stokes equations. Part 3. Vortex reconnection and singularity evasion, J. Fluid Mech. 967, R1 (2023), doi: 10.1017/jfm.2023.472
  4. P.J. Morrison and Y. Kimura, A Hamiltonian Description of Finite-Time Singularity in Euler’s Fluid Equation, Phys. Lett. A 484, 129078 (2023), doi: 10.1016/j.physleta.2023.129078

Venue: Seminar Room #359, 3F Main Research Building, RIKEN / via Zoom

Event Official Language: English

Workshop

Takashi Okada thumbnail

iTHEMS Graph-theory workshop: from basics to applications

November 13 (Mon) - 14 (Tue), 2023

Momoko Hayamizu (Assistant Professor, Faculty of Science and Engineering, School of Fundamental Science and Engineering, Waseda University / PRESTO Researcher, Japan Science and Technology Agency (JST))
Seiya Negami (Professor Emeritus, Yokohama National University)
Takashi Okada (Program-Specific Associate Professor, Institute for Life And Medical Sciences, Kyoto University)
Tasuku Soma (Associate Professor, Department of Statistical Inference and Mathematics, The Institute of Statistical Mathematics / Associate Professor, Statistical Science Program, The Graduate University for Advanced Studies (SOKENDAI))
Shun'ichi Azuma (Professor, Garduate School of Informatics, Kyoto University)

We will hold a two-day workshop on graph theory, which covers a variety of topics including basic concepts and theorems in graph-theory; graph-embedding; phylogenetic tree construction; chemical reaction networks; and cactus network theory.

The details are found in the website linked below.

Venue: #435-437, Main Research Building, RIKEN

Event Official Language: English

Conference

MCME SYMPOSIUM 2023 thumbnail

Co-hosted by iTHEMS

MCME SYMPOSIUM 2023

November 15 (Wed) - 16 (Thu), 2023

Kyosuke Adachi (Research Scientist, iTHEMS)
Hiroshi Kokubu (Executive Vice-President, Kyoto University)
Masaru Hongo (Assistant Professor, Department of Physics, Faculty of Science, Niigata University)

"MCME SYMPOSIUM 2023" will be held at the Musashino Center of Mathematical Engineering (MCME), Musashino University. This symposium is free of charge and open to everyone.
Colleagues of iTHEMS will also be speaking. Below is an excerpt from the program.

Wednesday, November 15, 11:20 - 12:30 Kyosuke Adachi
Wednesday, November 15, 16:20 - 17:30 Hiroshi Kokubu
Thursday, November 16, 10:00 - 11:10 Masaru Hongo

Registration is open until November 14. Please register from the related links below.

Organized by Musashino Center of Mathematical Engineering (MCME), Musashino University
Co-organized by RIKEN Interdisciplinary Theoretical and Mathematical Sciences Program (iTHEMS)

Venue: Hybrid Format (Room 301, Building 5, Ariake Campus, Musashino University and Zoom)

Seminar

iTHEMS Math Seminar

Geometry of special nilpotent orbits

November 15 (Wed) at 14:00 - 15:30, 2023

Baohua Fu (Professor, Academy of Mathematics and Systems Science, Chinese Academy of Sciences, China)

Special nilpotent orbits play a key role in representation theory, but their geometry is little understood. I'll first report a joint work with Yongbin Ruan and Yaoxiong Wen proposing a mirror symmetry conjecture for special nilpotent orbits and then a joint work with Daniel Juteau, Paul Levy and Eric Sommers on the proof of sliced version of Lusztig's conjecture on special pieces.

Venue: via Zoom

Event Official Language: English

Workshop

 thumbnail

6th QGG Intensive Lectures: Introduction to thermalization in isolated quantum systems

November 20 (Mon) - 21 (Tue), 2023

Ryusuke Hamazaki (RIKEN Hakubi Team Leader, Nonequilibrium Quantum Statistical Mechanics RIKEN Hakubi Research Team, RIKEN Cluster for Pioneering Research (CPR))

This is the sixth event by the Quantum Gravity Gatherings (QGG) Study Group at RIKEN iTHEMS. For this event we have invited Professor Ryusuke Hamazaki from RIKEN, to deliver pedagogical lectures on the thermalization in isolated quantum systems. This topic describes how a non-equilibrium quantum state relaxes to thermal equilibrium through a unitary time evolution. This theme has applications not only in statistical physics but also in many areas of physics. In particular, in the context of quantum gravity, understanding thermalization via a unitary time evolution is anticipated to be a key to resolving the information loss problem of black holes. In addition, the notion of typicality and thermalization is important in the AdS/CFT correspondence to understand black hole physics. We expect this event to provide insights to researchers in related fields. Ryusuke Hamazaki is a leading expert in this subject. It is our enormous pleasure to have the opportunity to learn from him the idea of thermalization and its applications related to realistic systems.

This intensive lecture series is designed to be an interactive event. The intensive talk will be given in a face-to-face blackboard style (in English, no online streaming) to encourage informal and lively Q&A discussions. The program will also include short talk sessions, where participants can present a 5-minute talk on a topic of their choice, which could be about their own research, reviews of specific works, or future study interests.

Venue: #435-437, Main Research Building, RIKEN

Event Official Language: English

Colloquium

iTHEMS Colloquium

Bridging physics and society: A case study of collective memory dynamics by socio-econophysics approach

November 20 (Mon) at 15:00 - 16:30, 2023

Yukie Sano (Associate Professor, Institute of Systems and Information Engineering, University of Tsukuba)

The movements of individuals with free will are unpredictable, complex, and, needless to say, fundamentally distinct from the movements of matter. Furthermore, studying society, which forms collectives while engaging in intricate individual interactions, using mathematical models seems incredibly daunting. However, when analyzing empirical data, relatively simple mathematics often emerge in the distribution and dynamics of society at the level of collective behavior. Additionally, such mathematics often share commonalities with physical phenomena. With this background, research is progressing by applying ideas from physics to social-economic phenomena, a field known as socio-econophysics. In this presentation, I will introduce a mathematical model that addresses the decay of collective memory using access logs on the web as an example of research in socio-econophysics.

Venue: Okochi Hall, 1F Laser Science Laboratory, RIKEN / via Zoom

Event Official Language: English

Seminar

 thumbnail

ABBL-iTHEMS Joint Astro Seminar

Early Formation of Dark Matter Halos

November 24 (Fri) at 14:00 - 15:15, 2023

Derek Beattie Inman (Research Scientist, iTHEMS)

Cosmological observations have led to an extremely precise understanding of the large-scale structure of the Universe. A common assumption is to extrapolate large-scale properties to smaller scales; however, whether this is correct or not is unknown and many well-motivated early Universe scenarios predict substantially different structure formation histories. In this seminar I will discuss two scenarios where nonlinear structures form much earlier than is typically assumed. In the first case, the initial fluctuations are enhanced on small scales leading to either primordial black holes clusters or WIMP minihalos right after matter-radiation equality. In the second, I will show that an additional attractive dark force leads to structure formation even in the radiation dominated Universe. I will furthermore discuss possible observations of such early structure formation including changes to the cosmic microwave background, dark matter annihilation, and when the first galaxies form.

Venue: Seminar Room #359, 3F Main Research Building, RIKEN / via Zoom

Event Official Language: English

Seminar

iTHEMS Seminar

Cosection localization via shifted symplectic geometry

December 6 (Wed) at 10:00 - 11:30, 2023

Young-Hoon Kiem (Professor, School of Mathematics, Korea Institute for Advanced Study (KIAS), Republic of Korea)

Modern enumerative invariants are defined as integrals of cohomology classes against virtual fundamental classes constructed by Li-Tian and Behrend-Fantechi. When the obstruction sheaf admits a cosection, the virtual fundamental class is localized to the zero locus of the cosection. When the cosection is furthermore enhanced to a (-1)-shifted closed 1-form, the zero locus admits a (-2)-shifted symplectic structure and thus we have another virtual fundamental class by the Oh-Thomas construction. An obvious question is whether these two virtual fundamental classes coincide or not. In this talk, we will see that (-1)-shifted closed 1-forms arise naturally as an analogue of the Lagrange multiplier method. Furthermore, a proof of the equality of the two virtual fundamental classes and its applications will be discussed. Based on a joint work with Hyeonjun Park.

Venue: Seminar Room #359, 3F Main Research Building, RIKEN

Event Official Language: English

Workshop

Integrated Innovation Building (IIB) venue photo

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

Upcoming Visitor

Bevelynn Williams thumbnail

October 28 (Sat) - November 12 (Sun), 2023

Bevelynn Williams

Postdoctoral Fellow, School of Mathematics, University of Leeds, UK

Visiting Place: RIKEN Wako Campus

Paper of the Week

Week 5, October 2023

2023-10-26

Title: Nambu-Goldstone modes in a lattice Nambu-Jona-Lasinio model with multi flavor symmetries
Author: Yukimi Goto, Tohru Koma
arXiv: http://arxiv.org/abs/2310.15922v1

Title: The extraction of higher-order radial moments of nuclear charge density from muonic atom spectroscopy
Author: Hui Hui Xie, Jian Li, Haozhao Liang
arXiv: http://arxiv.org/abs/2310.09546v1

If you would like to cancel your subscription or change your email address,
please let us know via our contact form.