*=invited speaker
10:00 – 10:30 Opening (each 5 – 10min)
Session Chair: Yuji SANO (IMS/ SANKEN, Osaka U., Japan), Tomonao HOSOKAI (SANKEN, Osaka U., Japan) and Masaki KANDO (KPSI, QST, Japan)
Conference Chair
Opening, welcome to Q-BASIS 2023
Tohru SEKINO (SANKEN, Osaka U., Japan)
Welcome to SANKEN, Osaka University
Hiroyuki KAMAI (MEXT, Japan)
Greetings from MEXT (Ministry of Education, Culture, Sports, Science and Technology)
10:30 -11:00 Application of high-power lasers
Session Chair: Yuji SANO (IMS/ SANKEN, Osaka U., Japan)
10:30 -11:00
Domenico FURFARI* (Airbus, Germany)
[24A-01] The use of Lights for Structural Performance Enhancement of Metallic Airframes. LEOPARD, a Laser Shock Peening industrial solution for Maintenance Repair Overhaul Use
11:00 – 11:30 Break
11:30 – 12:30 Application of high-power lasers
Session Chair: Kazufumi NOMURA (Osaka U., Japan)
11:30 -12:00
Laurent BERTHE* (PIMM, CNRS, France)
[24A-02] New advance on laser shock generation and related applications : Laser shock peening, laser adhesion test and damaging
12:00 – 12:30
Noboru HASEGAWA* (KPSI, QST, Japan)
[24A-03] Development of a laser hammering system for tunnel and bridge concrete inspection using the high-power lasers
12:30 – 14:00 LUNCH TIME 12:30 Group Photo
Lunch Guide
14:00 – 15:30 Laser-material interaction for science and industry
Session Chair: Tomas MOCEK (HiLASE, Czech Rep.)
14:00 – 14:30
Kenichi ISHIKAWA* (U. of Tokyo, Japan)
[24P-01] Building Artificial Intelligence, Science and Theory for Smart Laser Manufacturing
14:30 – 15:00
Yusuke ITO* (U. of Tokyo, Japan)
[24P-02] Ultrafast processing of transparent materials by selective absorption of continuous-wave laser into transiently excited electrons
15:00 -15:30
Tomokazu SANO* (Osaka U., Japan)
[24P-03] Femtosecond Laser-Shock Processing: Fundamentals and Applications
15:30 -16:00 Break
16:00 – 17:00 Quantum beams for material science and industry
Session Chair: Tomokazu SANO (Osaka U., Japan)
16:00 -16:30
Makoto OCHIAI* (Toshiba ESS, Japan)
[24P-04] Achievements and future expectations of laser applications for energy solutions
16:30 – 17:00
Kentaro UESUGI* (JASRI, Japan)
[24P-05] High speed 2D/3D X-ray imaging at SPring-8
17:00 – 18:00 High-power laser development and applications
Session Chair: Shigeki TOKITA (Kyoto U., Japan)
17:00 -17:30
Tomas MOCEK* (HiLASE, Czech Rep.)
[24P-06] Advanced DPSSL technologies and applications at HiLASE
17:30 – 18:00
Takashi SEKINE* (Hamamatsu Photonics, Japan)
[24P-07] A 100 J, 10 Hz operation with LD pumped Yb:YAG ceramics laser
*=invited speaker
9:00 – 10:30 Quantum beam applications for imaging and inspection
Session Chair: Tsuneto KANAI (Kyoto U., Japan)
9:00 – 9:30
Haruo MIYADERA* (Toshiba ESS, Japan)
[25A-01] Muon imaging and applications
9:30 – 10:00
Fesseha MARIAM* (LANL, USA)
[25A-02] The LANL Proton radiography Facility and Investigations toward Achromatic Imaging
10:00 – 10:30
Yoshie OTAKE* (RIKEN, Japan)
[25A-03] RIKEN Accelerator-driven compact neutron system and its applications and achievements
10:30 -11:00 Break
11:00 – 12:30 Quantum beams for medical and biological science & engineering
Session Chair: Mitsuaki NOZAKI (KEK, Japan)
11:00 -11:30
Masahiko KOIZUMI* (Osaka U., Japan)
[25A-04] Radiation Sensitization for Radiation Therapy
11:30 -12:00
Thomas KLUGE* (HZDR, Germany)
[25A-05] High Energy Proton Acceleration at DRACO-PW and Radiobiological Applications for Medical Tumor Therapy Research
12:00 – 12:30
Kiminori KONDO (KPSI, QST, Japan)
[25A-06] Development of laser driven injector for a compact heavy ion radiotherapy system
12:30 – 14:00
LUNCH TIME
(Organization Committee Meeting of US-Japan Forum for Advanced Accelerators)
Lunch Guide
14:00 – 15:30 Quantum beams for medical and biological science & engineering
Session Chair: Kiminori KONDO (KPSI, QST, Japan)
14:00 -14:30
Antoine SNIJDERS* (LBNL, USA)
[25P-01] The BELLA PW laser proton beamline: a new platform for ultra-high dose rate radiobiological research
14:30 – 15:00
Kei NAKAMURA* (LBNL, USA)
[25P-02] Proton beamlines for radiation biology application at the BELLA PW facility
15:00 -15:30
Takayasu KAWASAKI* (KEK, Japan)
[25P-03] Terahertz radiation to amyloid fibrils
15:30 -16:00 Break
16:00 – 17:40 Quantum beams for medical and biological science & engineering
Session Chair: Thomas KLUGE (HZDR, Germany)
16:00 – 16:30
Keiichi NAKAGAWA* (U. of Tokyo, Japan)
[25P-04] Single-shot ultrafast imaging for observation of non-repetitive laser-induced plasma and shockwaves
16:30 – 17:00
Takeharu NAGAI * (Osaka U., Japan)
[25P-05] Use of quantum beams in improving the properties of glowing plants
17:00 -17:20
Tomonao HOSOKAI (Osaka U., Japan)
[25P-06] Drug discovery with high-energy electron beams
17:20 – 17:40
Yasunobu YAMASHITA* (Osaka U., Japan)
[25P-07] Chemotherapy triggered by electron beams
19:00 – 21:00 Banquet
Place:Senri Hankyu Hotel
Additional fee is required to attend banquet.
*=invited speaker
9:00 – 11:00 Joint session with U.S. – Japan Forum for Advanced Accelerators
Session Chair: Mei BAI (Stanford, USA) and Mitsuhiro YOSHIDA (KEK, Japan)
9:00 – 9:10
Mitsuhiro YOSHIDA (KEK, Japan)
[26A-01] Introductory talk
9:10 – 9:30
Mei BAI* (Stanford, USA)
[26A-02] Grand challenges of future colliders
9:30 – 10:00
Eric ESAREY* (LBNL, USA)
[26A-03] Laser plasma accelerator research at the BELLA Center
10:00 – 10:30
Robert Joel ENGLAND* (Stanford, USA)
[26A-04] Particle Acceleration Using Laser-Driven Photonic Structures
10:30 -11:00 Break
11:00 – 12:20 Laser electron acceleration and FEL
Session Chair: Rodrigo LOPEZ-MARTENS (LOA, France)
11:00 -11:30
Masaki KANDO (KPSI, QST, Japan)
[26A-05] Current status of the MIRAI free-electron laser project using laser accelerated electron beams in Japan
11:30 -12:00
Marie-Emmanuelle COUPRIE* (SOLEIL, France)
[26A-06] The COXINEL seeded Free Electron Laser driven by the HZDR Laser Plasma Accelerator
12:00 -12:20
François SYLLA* (SourceLAB, France)
[26A-07] KAIO-BEAMLINE, à modular high repetition rate laser electron accelerator for broad range of applications
12:20 – 15:30
LUNCH TIME (Q-BASIS 2024 Kickoff Meeting)/
Poster presentations at SANKEN CReA
(Chaired by Yanjun GU and Alexandre RONDEPIERRE, SANKEN Osaka U., Japan )
Lunch Guide
Poster presentations will be held at SANKEN CReA (2nd Floor).
Poster No. |
Presenter |
Title |
PO-01 |
Boyuan Li |
Efficient high-order harmonic generation via surface plasma compression with lasers |
PO-02 |
Alexandre Rondepierre |
Challenges to make LPA viable for industrial XFEL sources |
PO-03 |
Wenchao Yan |
Fold-rotational Symmetric Radiation Vortex stem from Nonlinear Thomson Scattering of Intense Laser with Circular Polarization Topology |
PO-04 |
Duthika Dilrangi Perera |
Development of a compact electron source using self-modulated laser wakefield acceleration driven by a Sub-TW class laser |
PO-05 |
Sadaoki Kojima |
Induction heating for desorption of surface contamination for high-repetition laser-driven heavy-ion acceleration |
PO-06 |
Masayasu Hata |
Numerical simulation of laser ion injector for quantum scalpel project |
PO-07 |
Matthew S Freeman |
LPA-Driven Electron Radiography at OMEGA EP |
PO-08 |
Jinfeng Yang |
Ultrafast electron microscopy with relativistic femtosecond electron pulses |
PO-09 |
Tsuneto Kanai |
Supercontinuum-seeded 4-micron KTA optical parametric amplifier for seeding TW-class Fe:ZnSe multipass amplifiers |
PO-10 |
James Kevin Koga |
Simulation of self-focusing ultrashort femtosecond lasers in air for the detection of viruses and VOCs |
PO-11 |
Hitoshi Soyama |
Laser Cavitation Peening Using a Nd:YAG Laser with and without Q-switch |
PO-12 |
Daiki Okazaki |
Development of a 6-mJ, 100-Hz, femtosecond Yb:CaF2 regenerative amplifier for driving 4-micron KTA parametric amplifiers |
PO-13 |
Shigeki Tokita |
Temperature-driven, Sub-100-fs Mode-locked Fiber Oscillators Based on the Symmetry-Broken Nonlinear Polarization Evolution Method |
PO-14 |
Kazufumi Nomura |
In-line Detection of Internal Defects in Fillet Welded Sheet of Lap Joint by Laser Ultrasonic and Its Robotic Application Using Microchip Laser |
PO-15 |
Haruya Matsumoto |
Development of a Start-to-End simulation code for the laser-driven ion injector |
PO-16 |
Tatsuhiko Miyatake |
Optimization of laser irradiation conditions for high-brightness beam generation in laser-driven ion beams |
PO-17 |
Kai Huang |
Temporal measurement of laser wakefield electrons via electro-optic sampling |
PO-18 |
Yuta Suzuki |
Development of a high-power terahertz source baced on laser-produced plasma for electron acceleration |
PO-19 |
Yoshio Mizuta |
Laser peening with microchip laser mounted on a controlled robotic arm |
PO-20 |
Shigeru Yamamoto |
Undulator light source with a compact, slender and lightweight frame based on a magnet technology developed for very-short-period undulators |
PO-21 |
Yoshihide Honda |
Current status and prospect of RLQBS in SANKEN |
PO-22 |
Thanh-Hung Dinh |
Development of a compact 50 TW laser for energetic quantum beam generation toward practical applications |
PO-23 |
Alexei Zhidkov |
Plasma Effects on Electron Beam Bunching in External Periodic Fields |
PO-24 |
Naveen Chandra Pathak |
Focusing and reduction of correlated energy spread of chirped electron beams in passive plasma lens. |
PO-25 |
Yanjun Gu |
Study of gas jet stability for LWFA in the context of shock injection |
PO-26 |
Zhan Jin |
An Overview of Laser Wakefield Acceleration Platform in Spring-8 |
PO-27 |
Shingo Sato |
Characterization of Plasma Targets for Electron Beam Generation in Laser Wakefield Acceleration Systems |
PO-28 |
Illia Zymak |
The electron beam diagnostic system for MeV range high repetition rate LWFA sources |
PO-29 |
Masao Gohdo |
The electronic structure of the solvated electron investigated by pulse radiolysis |
PO-30 |
Nobuhiko Nakanii |
Beam pointing control of laser wakefield accelerator by shaping near field profile of laser pulse |
PO-31 |
Yusa Muroya |
Picosecond pump-probe study on radiation-induced primary reaction processes of solutions at extreme conditions |
15:30 – 17:00 Laser electron acceleration and FEL
Session Chair: Marie-Emmanuelle COUPRIE (SOLEIL, France)
15:30 – 16:00
Rodrigo LOPEZ-MARTENS* (LOA, France)
[26P-01] Lightwave control of relativistic plasmas
16:00 -16:30
Liming CHEN* (SJTU, China)
[26P-02] Ultra-high charge electron acceleration and nuclear applications
16:30 – 17:00
Min CHEN* (SJTU, China)
[26P-03] Recent progresses of laser plasma based electron acceleration and radiation at Shanghai Jiao Tong university
17:00 -17:20 Closing
Session Chair: Yuji SANO (IMS/ SANKEN, Osaka U., Japan), Tomonao HOSOKAI (SANKEN, Osaka U., Japan) and Masaki KANDO (KPSI, QST, Japan)
17:00 -17:20
Conference Chair
Closing, announcement of Q-BASIS 2024
Lab Tour to SPring-8 ※Optional Tour (Tour registration is required.)
Location
RIKEN SPring-8 Campus
1-1-1, Kouto, Sayo-cho, Sayo-gun, Hyogo 679-5198 Japan
Capacity
40 people(Maximum)
Bus Tour Schedule
10:30 Departure from Senri Hankyu Hotel
11:50 – 12:45 Lunch(Japanese style)
13:30 Arrival at RIKEN SPring-8 Campus
(VisitingSPring-8, SACLA and LAPLACIAN)
16:00 Departure form RIKEN SPring-8 Campus
18:00 Arrival at Senri Hankyu Hotel
18:30 Arrival at Shin-Osaka Station
*Arrival time may be delayed due to traffic conditions.
The RIKEN SPring-8 Campus is located to the west of about 130 km from Osaka. We will visit the following facilities by using a chartered bus from Osaka.
SPring-8
SPring-8 is a third-generation synchrotron radiation facility like ESRF in France and APS in US. SPring-8 is a nickname standing for “Super Photon ring-8 GeV”. SPring-8 is a core facility for ma-terials science, biotechnology, etc. including industrial applications.
SACLA
SACLA (SPring-8 Angstrom Compact Free Electron Laser) is a user facility of an X-ray Free Elec-tron Laser (XFEL) collocated with SPring-8. SACLA generates coherent X-ray pulses in the femto-second range, and is used for ultrafast science by pump-and-probe methods and for structural analy-sis of proteins.
LAPLACIAN
LAPLACIAN (Laser Acceleration Platform as a Coordinated Innovation Anchor) is an experimental facility with multiple laser beam lines based on PW-class laser system dedicated for laser wakefield acceleration (LWFA) of electrons, constructed under ImPACT and MIRAI research program. Cur-rently, it stably accelerates electrons to multi-hundred MeV regime to generate FELs with compact undulators. Multi-stage acceleration is possible to obtain GeV electrons.