Topics

  • New Insights Put a Freeze on the Mechanisms for Safely Cryopreserving Biological Materials
  • Researchers find why 'lab-made' proteins have unusually high temperature stability
  • Old X-Rays, New Vision: A Nano-Focused X-Ray Laser
  • Every moment of ultrafast chemical bonding now captured on film-The emerging moment of bond formation, two separate bonding steps, and subsequent vibrational motions were visualized-
  • Probing glass-transition dynamics in liquid polymer using x-rays
  • Cancellation of FY 2020 SPring-8/SACLA Open Day (PDF:162KB)
  • Identification of the mechanism by which the "distorted-chair" structure catalyzes oxygen molecules formation in photosynthesis
  • High-precision tracking of ultrafast molecular oscillations
  • Nematic-to-columnar mesophase transition by in situ supramolecular
  • Enzyme’s Unfrozen Adventure: In crystallo protein thermodynamics
  • Focus on this: Japanese team increases X-ray laser focusing ability
  • No Assembly Required: Self-assembling Silicone-based Polymers
  • Keeping our cells stable: a closer look at microtubules
  • Self-assembly of lattices with high structural complexity from a geometrically simple molecule
  • Development of a high-output, highly stabilized power source using SiC power semiconductor technology
  • Discovery of Energy Storage Mechanisms in Electrically Conductive Coordination Frameworks
  • Demonstrated basic technology to map only specific elements with different upper and lower environments, utilizing harmonic generation by X-ray free electron laser
  • Synchrotron science could give soybeans a boost
  • Discovery of ‘quantum’ supercritical state of electrons induced by valence fluctuation
  • Ptychographic-X-ray absorption fine structure (XAFS) technique visualizes oxygen diffusion of material with oxygen storage/release capability
  • The origin of water’s unusual properties found
  • Mechanism behind catalytic hydroxylation of stable C-H bonds using artificial enzyme at room temperature elucidated
  • Superradiance of an ensemble of nuclei excited by a free electron laser
  • High-precision ellipsoidal mirror achieved two-dimensional X-ray focusing with world’s minimum focus size of 100 nm at SPring-8
  • Successful analysis of depth of the surface inactive layer in spintronics material
  • What Happens When Materials Collide? Observing Fracture in Stressed Materials
  • A fish of all flavours
  • X-ray Microscope Optics Resolve 50-nm Features While Eliminating Chromatic Aberrations
  • Discovery of low noise, low viscosity, and low cost carrier of proteins for serial crystallography (SFX)
  • Successful atomic resolution analysis of the structure of proteinase K at ambient temperature using X-laser at SACLA
  • New SiC Power Conversion Module Capable of Stable High-Frequency Operation Developed
  • In cell molecular sieve from protein crystal
  • How x-rays in matter create genetoxic low-energy electrons
  • Proteins at the movies
  • Technology for quick 3D structure determination of membrane proteins developed
  • Successful verification of a new technique, dark-field X-ray ptychography
  • Amino acid sequences are key to the properties of silks
  • Structural changes in taste receptors in the first stage of taste perception discovered
  • Successful formation of X-ray nanobeam capable of controlling beam size, a world-first
  • Medium for delivering protein crystals with low damage discovered
  • Genome chromatin has an intrinsic property of irregular folding
  • True chemical reactions supporting life phenomena elucidated
  • Successful real-time observation of atomic motion with sub-nanometer resolution
  • Clarifying the role of magnetism in high temperature iron-based superconductors
  • Successful determination of crystal structures by using sulfur atoms of proteins at SACLA
  • Liquid acoustics half way to the Earth's core
  • Photoelectron diffraction measurements of gaseous molecules aligned in one direction
  • An atomic laser with the world's shortest wavelength achieved
  • Photoemission linear dichroism reveals cubic wave functions
  • Fine-tuned molecular orientation is key to more efficient solar cells
  • Time lapse snapshots of a nova's fading light
  • Direct observation of bond formations
  • Development of High-Resolution and Highly Reliable Imaging Method for Biological Samples
  • Development of XFEL Technique for Generating Monocycle X-Ray Pulse
  • A greasy way to take better protein snapshots
  • World’s First Observation of Saturable Absorption of Hard X-rays
  • Successful Observation of Ultrafast Structural Dynamics in Nanocrystal
  • Exploring Vacuum Using World’s Highest-Intensity X-rays
  • 100-fold increase in X-ray laser power density
  • Generation of Circularly Polarized X-ray Free-Electron Laser
  • Successful Visualization of Distortion in Right- and Left-Handed Helical Orientation of Electron Cloud
  • Development of High-Performance X-ray Image Detector as "Eye" of SPring-8 Angstrom Compact Free-Electron Laser (SACLA) Facility
  • Histones may hold the key to the generation of totipotent stem cells
  • Successful Demonstration of High-Resolution X-ray Imaging of Thick Objects
  • Successful Nanoscale Observation of Living Cells Using X-ray Laser
  • Adaptable crystals allow quick, efficient separation of carbon monoxide from gas mixtures
  • Intense two-color double X-ray laser pulses: a powerful tool to study ultrafast processes
  • Successful analysis of nanoparticle size distribution and structure differentiation using focused hard XFEL pulses
  • Scramble for hydrogen bond between light and heavy water
  • Mechanism of Maintaining Balance of Defense Responses to Stress
  • Exploration of Origin of Acquired Immunity
  • Development of Highly Efficient X-ray Absorption Spectroscopy (XAS) Using Characteristics of X-ray Free Electron Laser (XFEL) Pulses
  • Customized Acceleration of Electron Beams
  • World's first observation of hollow atom creation by successive X-ray hits
  • Realization of Three-Dimensional Imaging of Chirality Domains Using Synchrotron Radiation
  • Novel Interaction between Electrons Acting as Micromagnets
  • Elucidation of Mechanism Underlying Responses of a Receptor to Various Stimuli
  • Suppression of Amplification Errors during Polymerase Chain Reaction (PCR)
  • Development of Novel Method for Utilizing Coherent X-rays
  • Development of Innovative X-ray Microscopy with High Spatial Resolution and Sensitivity
  • Naturally Occurring Mineral for Thermoelectric Power Generation
  • Discovery of a New X-ray Beam Splitting Phenomenon While Passing Through a Semiconductor Crystal
  • Elucidation of the Rotation Mechanism of the Molecular Motor, Which is Implicated in Osteoporosis and Cancer Metastasis
  • The Birth of the Most Intense X-ray Laser Beam in the World
  • Successful Use of Artificial Capsule for Capturing a Protein Alive
  • An Atomic-Level Analysis of the Mechanism of Proteins Controlling the Iron Concentration inside a Cell
  • Dispersion and Orientation Control for Carbon Nanotubes
  • Iron-based Superconducting Body: Experimental Results Decisively Suggest a New Mechanism
  • SACLA draws acclaim for unique XFEL design
  • Spin structure reveals key to new forms of digital storage, study shows
  • Medal of Honor with Purple Ribbon awarded to Dr. Tetsuya Ishikawa
  • Visualization of the relation between thermal conductivity and the "rattling" of a guest atom trapped in a cage structure
  • Antimony accelerates rewriting of information in DVD media!
  • Crystal structure of archael chromatin clarified in new study
  • Success in Observing Persistent Covalent Bonding in Liquid Silicon
  • New study sheds light on evolutionary origin of oxygen-based cellular respiration
  • Discovery of Key Site Essential for Regulating the Function of MutL, a DNA Repair Enzyme
  • Success in Capturing Instantaneous Atomic Movement Induced by Application of Voltage for Millionths of a Second
  • Clarifying the Mechanism behind the Induction of Ferromagnetism in the Partial Absence of a Rare-Earth Element
  • New Model for Charge Transfer of Magnetic Organic Molecule, TDAE-C60
  • X-ray Crystallography of Oxygen-Tolerant Membrane-Bound [NiFe] Hydrogenase
  • Development of High-Resolution X-ray Microscopy with Wide Field of View Capable of Element Mapping
  • Fast, Cheap, and Accurate: Detecting CO2 with a Fluorescent Twist
  • FEL comparison paper was selected as Highlights of Metrologia during 2010 (PDF:217KB)
  • Exceeding Limit to Observation Wavelength Using "Sister" Photons
  • SACLA lased - Lasing achieved at SACLA, Japan's XFEL facility
  • Demonstrating the Expansion of an Iron Compound with Decreasing Temperature (Negative Thermal Expansion)
  • Earthquake-affected users of research facilities in eastern Japan admitted to SPring-8
  • Support for Disaster-Affected Quantum Beam Research Facilities
  • RIKEN and JASRI unveil "SACLA", Japan's first X-ray Free Electron Laser (XFEL)
  • Successful Development of Method Capable of Simply and Quickly Analyzing Characteristics of Membrane Proteins
  • Clarifying the Reason for the Strength of a Polymer Battery Material
  • Clarifying the Mechanism of Transparent Cobalt-Doped Titanium Dioxide Thin Films Exhibiting Magnetism
  • Atomic-Level Clarification of Differences in Recording Mechanism between Typical Optical Disc Materials
  • Construction of Remote Experiment Control System at SPring-8
  • Clarifying Rhythmic Structural Changes in Cyanobacterial Clock Protein
  • First - Ever Success in Crystal Structure Clarification of Enzyme That Catalyzes Nitrous Oxide, a Greenhouse Gas, Generation
  • New photosensitive film converts light into kinetic energy, bends when irradiated
  • Team Leader Susumu KITAGAWA chosen as 2010 Thomson Reuters Citation Laureate (PDF:226KB)
  • Clarification of How Cytochrome c, an Important Protein Involved in Respiration, Loses Its Function by Joining in Chains, Half a Century after the Discovery of Its polymerization
  • Revealing the Characteristics of "Brake" of Cell Movement
  • Shape Discrimination Observation of Molecular Orbital in Solution for the First Time in the World
  • New Avenues for Function Control and Application Development of Fullerenes
  • Observing Drastic Translation of X-Rays by a Deformed Single Crystal
  • Discovery of Molecular Sorption Phenomenon Enabling Detection of Differences in Electron State
  • Open Day at the SPring-8 Campus (PDF:545KB)
  • Development of a New Experimental Method to Clarify Atomic Orbitals of Conduction Electrons in Solids
  • Development of X-Ray Microscope Enabling Visualization of Electron Density Distribution of Materials with Nanometer Resolution
  • Chief Scientist Dr. Masashi Miyano receives "The Commendation for Science and Technology"
  • Clarification of Mechanism of Specific Binding of DNA-Repair-Promoting Protein to Single-Stranded DNA
  • Clarification of Nanostructure of Bacterial Flagellar Micropropeller that Switches Conformation
  • Revealing the Characteristics of the Three Phases of Titanium Oxide Existing at Different Temperatures
  • Clarification of Generation of Electron Spin Spirals in Iron Film of Nanometer Thickness
  • Clarification of Structure of Metabolic Sensor "Band 3" in Red Blood Cells
  • Simultaneous Measurements of Ultrafast Motions of Electrons and Atoms at SPring-8
  • World's First Determination of X-Ray Nonlinear Susceptibility Using Diamonds
  • Discovery of Liquid Crystal Structure Bifurcated in Form of Ant Colony
  • World's First Superlight Irradiating Protein Microcrystals
  • Realization of High-Speed High-Accuracy Data Collection Using a New Type of Detector Equipped with CMOS Sensor
  • Realization of World's Narrowest X-Ray Beams
  • Determination of Steric Structure of Catalytic Protein for Nitrile Synthesis
  • How bacteria sense the world
  • First-Ever Observation of Electron State of Molecules in Aqueous Solution Using Soft X-Rays
  • Associate Chief Scientist Dr. Koji Yonekura and researcher Dr. Saori Maki-Yonekura receive Ernst-Ruska-Award (PDF:257KB)
  • Discovery of Inhomogeneous Microstructure of Liquid Water Previously Considered to Have Uniform Density
  • World's Largest Scale Database of Experimental Data for Crystal Structure Analysis of Protein
  • Flexible Structure of Prostaglandin D Synthase (PGDS) with Various Functions Supporting Sleep Induction, and Maturation and Maintenance of Reproductive System
  • Realizing the World's First Electrolytic Solution Performance in Solid Form at Room Temperature for Use in Batteries
  • Clarification of Oxygen Adsorption Mechanism of Oxygen Storage Protein, Myoglobin
  • Solving the Mystery of a Fullerene Superconductor with a Critical Temperature of 38 K
  • Successful Dead-Time-Free Simultaneous Detection of Charged Particles
  • Basket protein molecules of 12 nm diameter: Clarification of mechanism behind accumulation of metal ions by ferritin at atomic level
  • Observation of Unusual Electron Orbit Using Synchrotron Radiation X-rays
  • Success in Observation of Transverse Acoustic Wave in Liquid!
  • Clarification of Structure of Actin Filament by X-Ray Fiber Diffraction
  • Development of a New Type of X-Ray Microscopy for Three-Dimensional Observation of Cell Interior
  • Clarification of Structure of Gibberellin Receptor
  • Cheiron School was held (PDF:886KB)
  • SPring-8 facilities opened to the public (PDF:493KB)
  • Teasing out the structure of a crucial protein
  • Announcement of the 3rd International Conference on Diamonds for Modern Light Sources (May 20-23, 2008) (PDF:275KB)
  • Dramatic gain in FEL power realized with external 'seed laser’
  • Direct observation of atomic motion in a nano-scale cage
  • X-ray images suggest new explanation for semiconductor charge bonding
  • Announcement of the GPCR Symposium (PDF:385KB)
  • Revealing the Mysterious Mechanism of an Oxide Semiconductor with "Nonconductive" Conductive Electrons
  • Atomic Vibrations of an Impossible "Pentagonal" Solid
  • SPring-8 10th Anniversary Ceremony and Symposium were held (PDF:422KB)
  • Clarification of Mechanism of Trillion-Times Reusable Ferroelectric Memory Material
  • Announcement of The Cheiron School 2007 (Asia Oceania Forum's Summer School)
  • Announcement of The Structual-Biological Whole Cell Project Workshop (Japanese only)
  • Announcement of The 4th JSSRR Young Scientists Workshop - Challenges to the unexplored Life Science with next generation light source - (PDF:211KB)
  • SPring-8 and RIKEN Harima Institute were opened to the public. (PDF:318KB)
  • Quantum Materials Research Seminar Series (PDF:212KB)
  • ISHIKAWA Tetuya, Director, the RIKEN SPring-8 Center, won Hyogo Science Prize (PDF:237KB)
  • The 7th Japan-Korea-Taiwan Symposium on Strongly Correlated Electron Systems 2006.10.27(Fri)-28(Sat)
  • British and Japanese science facilities sign up to future collaboration
  • SPring-8 and RIKEN Harima Institute were opened to the public. (PDF:330KB)
  • SPring-8 high brilliant X-ray has achieved a less than 0.1 weight % asbestos detection by powder diffraction.
  • Fast X-Ray Storoboscopy Reveals Intracrystalline Deformation Caused by Laser Irradiation
  • Elucidating How a Firefly Emits Light
  • Features of Protein Folding Dynamics Have Been Demonstrated Theoretically
  • Reaction Mechanism of "Dioxygenase" Elucidated, after 50 Years from Its Discovery
  • Direct Observation of Electrons Movement of Molecular Crystals
  • Success in Design and Tertiary Structure Determination of an Artificial Protein
  • Signs of quantum phase transition in a spin-ladder material have been observed for the first time
  • NAKAYAMA Nariaki(MEXT) visited SPring-8. (PDF:261KB)
  • Mechanism of proteins to obtain functions from small structural changes now explained
  • 2nd Bilateral Japan-UK Symposium is held
  • Discovery of the Cubical Expansion of Solid Oxygen by 1% in a Magnetic Field
  • RIKEN and IPFlex jointly develop Two-Dimensional Fast Fourier Transform Accelerator Using Dynamically Reconfigurable Processor DAPDNA-2,Enabling Extremely Fast Phase Retrieval
  • SPring-8/RIKEN Harima Institute Open day (PDF:255KB)
  • KITAMURA Hideo, Chief Scientist, received the Science and Technology Award by the Minister of Education (PDF:270KB)
  • RIKEN Symposium Pressure and Protein Dynamics
    (SPring-8, Public Relations Center)
  • RIKEN Monthly forum is held. (PDF:219KB)
  • First International Review Committee for XFEL (SCSS) Project
  • RIKEN Structural Biology Symposium X at SPring-8
    - New Tools for Future Structual Biology Studies -
  • Kitamura Hideo, Chief Scientist, won "Hyogo Science Prize" (PDF:252KB)
  • The 2nd PICS Workshop on High Energy Spectroscopies in d and f Electron Systems and RIKEN Workshop on Quantum Materials Research Group
  • Structural Biology with Angstrom X-ray Lasers
  • BSR2004 (the 8th International Conference on Biology and Synchrotron Radiation)
  • RIKEN The 5th Quantum Materials Research Group Workshop
  • SPring-8 and RIKEN Harima Institute were exhibited. (PDF:329KB)
  • RIKEN Structural Biology Symposium IX at SPring-8.
  • Masaki YAMAMOTO, Senior Scientist, won "Hyogo SPring-8 Prize" (PDF:244KB)
  • Workshop France-Japon on Structural Genomics Symposium Franco-Japonais en Genomique Structurale ( in French )
  • RIKEN & BBSRC symposium was held.
  • RIKEN Research Activities Public Review of Quantum Materials Research Group
  • Structural-Biological Whole Cell Project of Thermus thermophilus HB8 the 2nd Meeting
  • RIKEN Research Activities Public Review of Coherent X-Ray Optics Laboratory.
  • RIKEN Research Activities Public Review of Membrane Dynamic Research Group. (PDF:268KB)
  • SPring-8 and RIKEN Harima Institute were exhibited. (PDF:309KB)
  • Atsuko Toyama the Minister of Education,Culture,Sports, Science and Technology (MEXT),visited SPring-8. (PDF:232KB)
  • RIKEN symposium was held. (PDF:289KB)

About us

At RIKEN Harima Campus, RIKEN SPring-8 Center (RSC) promotes research and development for the world-leading photon facilities, SPring-8 and SACLA.

Overview

Aerial photograph of HARIMA Campus Photo

Aerial photograph of HARIMA Campus

The total area of RIKEN Harima Campus is 1,410,000 square meters, which is as large as 130 football fields. There are SPring-8, a 500m diameter facility, and SACLA, a 700m linear facility.

Organization chart

Organization chart of Harima campus RIKEN SPring-8 Center (To RIKEN Website)

RIKEN SPring-8 Center (To RSC Website)

The primary mission of the RIKEN SPring-8 Center (RSC) is to maintain stable and reliable operation of the large-scale research facilities SPring-8 and SACLA, and to provide brilliant X-rays for a broad range of researchers from universities, research institutes, and industries. The RSC develops state-of-the-art technologies for the production and utilization of brilliant X-rays and creates new science through the synergistic use of the two research facilities.

Harima Branch

Harima Branch is an administrative organization which supports RSC and manages Harima campus.

Outline

  • 1987
    /07

    The necessity of the large synchrotron radiation facility was proposed in the reply to the Consultation Article 11, promotion of comprehensive research and development related to the advancement of photon science and technology.

  • 1988
    /10

    RIKEN and Japan Atomic Energy Research Institute established a collaborative team for the synchrotron radiation facility research and development.

  • 1989
    /06

    Harima Science Garden City (Hyogo) was chosen as the construction site.

    ⇒column

  • 1989
    /08

    A nickname was finalized as “SPring-8”, which derives from Super Photon ring-8 GeV, and a logo was decided.

  • 1990
    /06

    Japan Synchrotron Radiation Research Institute (JASRI) was founded.

  • 1991
    /11

    Construction on SPring-8 was initiated.

  • 1994
    /10

    “Act for the Promotion of Public Utilization of the Specific Synchrotron Radiation Facilities” was implemented.

    ⇒column

  • 1997
    /03

    SPring-8 was completed.

  • 1997
    /03
    /26

    Generation of synchrotron radiation was confirmed.

  • 1997
    /10

    SPring-8 started its operation for public use.

  • 1997
    /10

    RIKEN established the Harima Institute at the site of SPring-8.

  • 2000

    A feasibility study of SASE(Self Amplified Spontaneous Emission)-XFEL(X-ray Free Electron Laser) was started.

  • 2005
    /10

    RIKEN SPring-8 Center was established.
    Japan Atomic Energy Research Institute withdrew from the management of SPring-8.

  • 2006

    "Act for the Promotion of Public Utilization of the Specific Synchrotron Radiation Facilities" was revised to "Act on the Promotion of Public Utilization of the Specific Advanced Large Research Facilities".

  • 2006

    Construction of the XFEL facility was started as one of National Key Technologies.

  • 2011
    /03

    The XFEL facility was completed. A nickname was finalized as “SACLA”, which derives from SPring-8 Angstrom Compact Free Electron Laser, and a logo was decided.

  • 2011
    /06
    /07

    Generation of X-ray laser was confirmed.

  • 2012
    /03

    SACLA started its operation for public use.

  • 2013
    /04

    RIKEN reorganized and established Harima Branch.

  • 2015
    /04

    RIKEN was reborn as "National Research and Development Institute".

  • 2018
    /04

    RIKEN reorganized the whole structure.

Column

"Act on the Promotion of
Public Utilization of
the Specific Advanced
Large Research Facilities"
More Close

Act on the Promotion of Public Utilization of the Specific Advanced Large Research Facilities Illustrated

The Act on the Promotion of Shared Use of Specified Large-Scale High-Technology Research Facilities (Act No. 78, 1994) (the Shared Use Act) defines large-scale research facilities of special importance as Specified Large-Scale High-Technology Research Facilities. This act stipulates the need for the systematic development and operation of these facilities, as well as for shared use in a fair, even manner. Based on this law, At Harima campus, RSC has mission to maintain stable and reliable operation of the large-scale research facilities SPring-8 and SACLA, and to provide brilliant X-rays for a broad range of researchers. Japan Synchrotron Radiation Research Institute (JASRI) serves to promote SPring-8 usage and increase the number of institutions registered to use the facility.

"Harima Science
Garden City"
More Close

Harima Science Garden City is located in a southwest valley in Hoyogo. It takes you about 40 minutes from Aioi Station by bus. You can see beautiful autumn leaves of Metasequoia, sea of clouds in winter, sky filled with stars at night and you will often see deer eating grass there.
When large radiation facility was planned to build, Suzuka Sanroku Research Academy City Sakura District (Mie), Sendai Hokubu Core Industrial Park (Miyagi) and Iwate Chubu Industrial Park (Iwate) were proposed other than Harima Science Garden City. Harima Science Garden City was selected finally because its solid ground and demands by researchers and local governments.

RIKEN is Japan's largest comprehensive research institution renowned for high-quality research in a diverse range of scientific disciplines.

Branches, Campuses and Centers in Japan

Map of domestic bases of RIKEN
  • A.Sendai Campus (Miyagi) Details
  • B. Tsukuba Branch (Ibaraki) Details
  • C. Wako Branch / Headquarters (Saitama) Details
  • D. Tokyo Campus (Chuo-ku, Tokyo) Details
  • E. Yokohama Branch (Kanagawa) Details
  • F. Nagoya Branch (Aichi) Details
  • G. Keihanna Campus (Keihanna Science City, Kyoto) Details
  • H. Osaka Campus (Osaka) Details
  • I. Kobe Branch (Hyogo) Details
  • J. Harima Branch (Hyogo) Details

Overseas offices

Map of overseas bases of RIKEN
  • A. RIKEN Facility Office at RAL (UK) Details
  • B. RIKEN Facility Office at RAL (UK) Details
  • C. Singapore Office Details
  • D. Beijing Office Details
  • E. RIKEN BNL Research Center Details

Events・Tours

Normally, the general public is not allowed to enter the Harima Campus, but we are conducting tours at any time that can be applied for by 15 people or more.

In addition, once a year, the facility is open to the public in the spring to introduce the facility, our research, and research results.

Information for
the campus observation

Guided tour

Building on Harima Campus

- Guided Tours are available by appointment only
(please complete a Guided Tour Request Form)
Our guides can provide tours that include:
- an overview of SPring-8 and SACLA at the Public Relations Center
- a tour of SPring-8 and SACLA
Guided tours are available to groups of fifteen or more people.
Tours last approximately 1.5 hours.
Opening hours: Weekdays 9:30 a.m. to 4:30 p.m., except national holidays, mid-August holidays, and new year holidays from Dec. 29 to Jan. 3.
* Please make your request at least 10 days prior to your desired tour date, but note that we cannot process requests more than three months in advance.

【Notice】
・Please refrain from drinking before visiting the campus.
・Smoking, eating and drinking are prohibited.
・If you have symptoms such as fever and flu, you will not be able to participate in the tour.

Contact about Guided tour
RIKEN SPring-8 Center
Phone: +81-(0)791-58-0909
Facsimile: +81-(0)791-58-2946
E-mail:rikenvisit[at]spring8.or.jp
(Replace [at] with @.)

Open House

Harima campus is opened to the public during the Open House. You can observe the facilities and our researchers show you various SPring-8/SACLA projects and highlighted their contributions to society. In 2020, the Open House was cancelled to prevent the further spread of COVID-19. In 2021, we are planning online Open House.

Optopia

“Optopia” is a Harima Science Garden City PR hall located in the Koto Plaza, about five minutes’ drive from the Harima campus. You can observe the exhibition related to SPring-8 and SACLA.

Location 2-23-1 Koto Plaza 1st floor, Koto, Kamigori-cho
Opening hours Weekdays 10:00 a.m. to 4:30 p.m.
Days closed Every Mondays and new year holidays from Dec. 29 to Jan. 3.
Admission Free
Contact about Optopia
Harima Science Garden City PR hall “Optopia”
Phone: +81-(0)791-58-0909

Access

RIKEN
Harima Campus

1-1-1, Kouto, Sayo-cho,
Sayo-gun, Hyogo JAPAN
679-5148
Building on Harima Campus

Please see the SPring-8 website for detailed access methods.

Contact us

General Affairs
1-1-1, Kouto, Sayo-cho, Sayo-gun, Hyogo JAPAN 679-5148
RIKEN, National Research and Development Institute, Harima Campus
Phone:+81-(0)791-58-0808
Facsimile:+81-(0)791-58-0800

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