Axions, Weyl and Beyond
from
Thursday, August 31, 2023 (1:40 PM)
to
Friday, September 1, 2023 (7:00 PM)
Monday, August 28, 2023
Tuesday, August 29, 2023
Wednesday, August 30, 2023
Thursday, August 31, 2023
1:40 PM
Registration and Opening remark (Deog Ki Hong)
Registration and Opening remark (Deog Ki Hong)
1:40 PM - 2:00 PM
Room: The Westin Josun Busan
2:00 PM
Recent progress in Weyl and topological semimetals
-
Moon Jip Park
(
Hanyang University
)
Recent progress in Weyl and topological semimetals
Moon Jip Park
(
Hanyang University
)
2:00 PM - 2:45 PM
Room: The Westin Josun Busan
Wey semimetal is an interesting class of topological materials that harbors chiral fermions as the low energy excitations. In this talk, I will give a comprehensive review of the Weyl semimetallic phase. Starting from exotic transport and experimental phenomena of such matter, I will discuss the dimensional hierarchy and the relation with the topological insulator phase in higher-dimensions. Finally, I will introduce the recent progress in the fields of topological semimetals that attempt to generalize the concept of Weyl fermions.
2:45 PM
A Review of Axion Physics
-
Seokhoon Yun
(
University of Padova
)
A Review of Axion Physics
Seokhoon Yun
(
University of Padova
)
2:45 PM - 3:30 PM
Room: The Westin Josun Busan
Axion is one of the most compelling candidate particles for new physics beyond the Standard model. It is ubiquitous in a variety of well-motivated new physics scenarios and can address conundrums in the Standard Model, e.g., the strong CP problem. Indeed, research on axions is actively ongoing worldwide. In this talk, I will briefly overview axion physics and the current status of phenomenological research on axions. If I have enough time, I will introduce my recent work on ‘Axion magnetic resonance’.
3:30 PM
Coffee break
Coffee break
3:30 PM - 4:00 PM
Room: The Westin Josun Busan
4:00 PM
Exploring the nontrivial topology of topological metals using electrical and thermal transport
-
Heon-Jung Kim
(
Daegu University
)
Exploring the nontrivial topology of topological metals using electrical and thermal transport
Heon-Jung Kim
(
Daegu University
)
4:00 PM - 4:45 PM
Room: The Westin Josun Busan
Experimental techniques to reveal the topology of materials and related properties are limited. Angle-resolved photoemission spectroscopy (ARPES) is a direct way to probe the band structure, but it cannot detect novel transport phenomena in a topological material. Electrical and thermal characterization techniques are therefore useful and necessary. In this talk, I will review experimental characterization methods based on electrical and thermal transports, and present some examples to show how these techniques reveal the nontrivial topological properties of materials. I will specifically emphasize the use of AC transport techniques, which can be used to investigate both the equilibrium properties of a system and the nonequilibrium steady state driven by AC perturbations. The discussions in this talk will demonstrate the power and usefulness of electrical and thermal transport measurements in revealing the topology of materials.
4:45 PM
discussions
discussions
4:45 PM - 5:00 PM
Room: The Westin Josun Busan
5:00 PM
Review on Axion search experiment
-
Junu Jeong
(
CAPP, IBS
)
Review on Axion search experiment
Junu Jeong
(
CAPP, IBS
)
5:00 PM - 5:45 PM
Room: The Westin Josun Busan
The axion is a hypothetical particle motivated from the Peccei-Quinn solution to the strong CP problem. Light axions, particularly those with masses below meV, exhibit feeble interactions with the standard model particles, rendering them compelling candidates for cold dark matter. Despite their flimsy interactions, numerous innovative methodologies have been proposed and implemented to directly detect their existence. In this presentation, we examine the physics of axions and introduce a range of proposed experimental approaches for dark matter axion searches.
5:45 PM
discussions
discussions
5:45 PM - 6:00 PM
Room: The Westin Josun Busan
6:00 PM
Dinner
Dinner
6:00 PM - 8:00 PM
Room: The Westin Josun Busan
8:00 PM
Detecting axion dark matter with chiral magnetic effects
-
Sang Hui Ihm
(
CTPU, IBS
)
Detecting axion dark matter with chiral magnetic effects
Sang Hui Ihm
(
CTPU, IBS
)
8:00 PM - 8:45 PM
Room: The Westin Josun Busan
We show that dark matter axions or axion-like particles (ALP) induce spontaneously alternating electric currents in conductors along the external magnetic fields due to the (medium) axial anomaly, realizing the chiral magnetic effects. We propose a new experiment to measure this current to detect the dark matter axions or ALP. These induced currents are the electron medium effects, directly proportional to the axion or ALP coupling to electrons, which depends on their microscopic physics, and also suppressed by the Fermi velocity.
8:45 PM
Coffeee break
Coffeee break
8:45 PM - 9:00 PM
Room: The Westin Josun Busan
9:00 PM
Brain Storming Discussions
-
Deog Ki Hong
(
Pusan National University (KR)
)
Ki-Seok Kim
(
POSTECH
)
Brain Storming Discussions
Deog Ki Hong
(
Pusan National University (KR)
)
Ki-Seok Kim
(
POSTECH
)
9:00 PM - 10:00 PM
Room: The Westin Josun Busan
Discussions on axions and Weyl metal
Friday, September 1, 2023
9:00 AM
Topological Fermi-liquid theory: Dynamics of collective modes and their instabilities in Weyl metals (Role of emergent axions in interacting Weyl metals)
-
Ki-Seok Kim
(
POSTECH
)
Topological Fermi-liquid theory: Dynamics of collective modes and their instabilities in Weyl metals (Role of emergent axions in interacting Weyl metals)
Ki-Seok Kim
(
POSTECH
)
9:00 AM - 9:45 AM
Room: The Westin Josun Busan
1. Introduction of topological classification of electronic band structure based on historical perspectives: Paper reviews 2.Emergent axions in ferromagnetic Weyl metals, antiferromagnetic topological insulators, and superconducting Weyl metals: From microscopic lattice models to effective field theories with symmetry breaking ➔ Novel non-equilibrium phase transitions 3. Introduction of Berry curvature into Landau’s Fermi-liquid theory = Topological Fermi-liquid theory (Haldane): Dynamics of l=1 & l=2 collective modes and their instabilities in interacting Weyl metals 4. Role of effective axion dynamics in potential instabilities of topological Fermi liquid theory: Generalization of composite Fermion theory in two spatial dimensions (From EM CS + gravitational CS + Wen-Zee CS to EM theta + gravitational theta + mixed anomaly theta terms)
9:45 AM
A Short Review of Time-Resolved and Angle-Resolved PES Studies on a few Weyl Systems
-
Han-Jin Noh
(
Chonnam National University
)
A Short Review of Time-Resolved and Angle-Resolved PES Studies on a few Weyl Systems
Han-Jin Noh
(
Chonnam National University
)
9:45 AM - 10:30 AM
Room: The Westin Josun Busan
In this short review presentation, I would like to talk about the basic concept of time-resolved photoemission and angle-resolved photoemission spectroscopy as the fittest observation tool for Dirac/Weyl systems, and present a few prototypical successful examples in chronological order to observe Dirac/Weyl quasi-particles in condensed matter systems via TR-/ARPES, expecting vivid discussion for the future research direction.
10:30 AM
Coffee break
Coffee break
10:30 AM - 11:00 AM
Room: The Westin Josun Busan
11:00 AM
Generalized Global Symmetries of Axion
-
Sungwoo Hong
(
KAIST
)
Generalized Global Symmetries of Axion
Sungwoo Hong
(
KAIST
)
11:00 AM - 11:45 AM
Room: The Westin Josun Busan
In this talk, I will describe various generalized global symmetries of axion-Maxwell theory. This includes 0-, 1-, and 2-form symmetries, non-invertible symmetries and 3-group symmetry. If time permits, I will briefly mention how the symmetry structure changes for axion-YM and axion-QCD theory.
11:45 AM
discussions
discussions
11:45 AM - 12:00 PM
Room: The Westin Josun Busan
12:00 PM
Lunch
Lunch
12:00 PM - 2:00 PM
Room: The Westin Josun Busan
2:00 PM
Weyl Fermion in holography and the fate of the topology under the presence of the strong interaction.
-
Sang-Jin Sin
(
Hanyang University
)
Weyl Fermion in holography and the fate of the topology under the presence of the strong interaction.
Sang-Jin Sin
(
Hanyang University
)
2:00 PM - 2:45 PM
Room: The Westin Josun Busan
We examine how to realize the Weyl Fermion in holography, which describe a strongly interacting system. We then study whether the topology of the Weyl Fermion realized in holographic set up to answer the question whether it remains in the presence of the interaction. Finally, we try to understand the topology as a consequence of the symmetry breaking.
2:45 PM
Axions and atomic spectra
-
Deog Ki Hong
(
Pusan National University (KR)
)
Axions and atomic spectra
Deog Ki Hong
(
Pusan National University (KR)
)
2:45 PM - 3:30 PM
Room: The Westin Josun Busan
3:30 PM
Coffee break
Coffee break
3:30 PM - 4:00 PM
Room: The Westin Josun Busan
4:00 PM
Brain storming discussions
-
Deog Ki Hong
(
Pusan National University (KR)
)
Brain storming discussions
Deog Ki Hong
(
Pusan National University (KR)
)
4:00 PM - 5:00 PM
Room: The Westin Josun Busan