Products
We are actively taking measures to improve product quality levels.
Applications
Why Hamamatsu?
Support
Our company
Investors
Japan (EN)
Select your region or country.
Laser fusion research
To solve the energy and environmental challenges on the planet
Energy is one of the challenges that must be solved in today's society. At present, more than 80 % of Japan's primary energy comes from fossil fuels, but there is a limit to the energy resources on Earth. Globally, energy consumption (primary energy) continues to increase with economic growth. On an oil equivalent basis, it continued to increase at an average annual rate of 2.4 % from 3.7 billion tons in 1965, reaching 14.2 billion tons in 2021.
"What is primary energy?"
This is the energy that can be obtained directly from nature, such as oil, coal, natural gas, hydropower, nuclear power, wind power, geothermal power, and solar power.
■Japan's supplies of primary energy
■Years of future availability of world energy resources
■Global energy consumption (by region, primary energy consumption)
Under these circumstances, laser fusion, which can extract energy from hydrogen isotopes inexhaustible in seawater, is expected to be the key to solving global energy problems.
Power generation using laser fusion also is expected to contribute to solving environmental problems such as global warming because it emits no carbon dioxide or nitrogen compounds.
Hamamatsu Photonics is engaged in a variety of R&D activities with the aim of establishing laser driver technology for fusion reactors that will form the core of laser fusion power generation. We also aim to apply the laser technology developed through these efforts to various industries and implement it in society. We continue to take on the challenge of not only working in the energy and environment field, but also in a multifaceted effort to contribute to society, the environment, and humankind.
Creating the Sun on the ground
Star glow and fusion
The light of a star shining in the night sky. In fact, the light is generated by a fusion reaction. A nuclear fusion reaction occurs at the center of a star, and the star is shining from the enormous energy generated there.
The sun, which is a source of various benefits to us, is also generating energy through nuclear fusion reactions. This was revealed by the U.S. physicist Hans Bete (Nobel Prize winner for Physics).
Principle of nuclear fusion
Nuclear fusion is a reaction in which two nuclei that are used as materials are fused together to form a heavier nucleus, at which time very large energy is generated.
In laser fusion, deuterium and tritium are used as fuel. The fusion reaction, in which the nuclei of deuterium and tritium are fused and helium and neutron are produced, produces enormous energy.
If we can create energy by nuclear fusion with human hands, we can create a small sun on earth.
Clean energy that contributes to sustainable development of mankind and society
Deuterium, a material for laser fusion, can be almost inexhaustibly taken from seawater. It is said that the content of deuterium in seawater is about 0.015 %, and theoretically more than 3 billion years.
The energy obtained from deuterium (0.6 g) in one polyethylene tank (20 L) of seawater is equivalent to 250 polyethylene tanks of oil. In other words, a large amount of energy can be produced from a small amount of fuel.
Power generation using laser fusion has the merit of generating less radioactive waste than nuclear power generation by nuclear fission. Nuclear power generation generates high-level radioactive waste such as uranium, but laser fusion power generation does not generate high-level radioactive waste, and only low-level radioactive waste that can be processed and disposed of by conventional technology.
In addition, even if an unforeseen event occurs, nuclear fusion reactors will be shut down as soon as the fuel or power supply is turned off, making it a highly safe power generation technology.
Energy produced by laser fusion power generation, which emits less radioactive materials and emits no carbon dioxide, will be a clean energy that contributes to safer and more sustainable development.
World's first successful cultivation of rice in a plant factory using a semiconductor laser
We have been conducting research and development on laser fusion for a long time since the 1970s to the present, and laser development technology, which is triggered by laser fusion, has produced unexpected results such as plant cultivation experiments using semiconductor lasers.
In 1997, we succeeded for the first time in the world in artificial indoor cultivation of rice by using high-power semiconductor lasers instead of sunlight. 680 nm laser was used for the experiment. The chloroplast of rice was most active in photosynthesis, using the technique we developed for laser fusion. Compared with the conventional method of cultivation at the Plant, it is also possible to reduce the cost of electricity and shorten the cultivation period, indicating the possibility of eliminating food shortages worldwide in the future.
In 2000, we began cultivating sakamai and perfected the sake "Hikari no Homare" brewed with the rice.
Artificial indoor cultivation of rice by semiconductor laser
Sake "Hikari no Homare"
These efforts led to the establishment of Hamamatsu PhotoAgri, Inc., a special-purpose subsidiary that engages in research and development related to agriculture and the production of agricultural products, centered on the cultivation of “Richleaf®”.
How laser fusion power generation works
When a capsule containing fuel (deuterium and tritium) is irradiated with numerous laser beams from all directions in a fusion reactor, the capsule is imploded, causing the compressed plasma with high temperature and high pressure. The deuterium and tritium nuclei in the plasma strongly collide with each other, causing an enormous number of nuclear fusion reactions.
Dozens to more than 100 times more energy is generated in this process than the electric energy used for the laser.By repeating this process continuously, enormous amounts of energy can be generated.
Laser fusion power generation is a system that converts fusion energy into heat and generates electricity.
The process shown above is repeated at a rate of 10 times per second. Fast neutrons generated are absorbed by the blanket on the reactor wall and converted into heat energy. The heat is used to turn a steam turbine and convert it into electricity.
Solving energy problems and creating new laser industries
Photonics technology for realizing laser fusion
In order to realize laser fusion, many photonics technologies are used as elemental technologies, including not only high-power laser devices, which are the key, but also optical measurement technology to capture the fusion reaction and optical technology to control the properties of light.
Our involvement with laser fusion began in the 1970s when we were asked to repair an overseas-made streak camera. In the 1990s, we succeeded in developing a high-power semiconductor laser, which led us to begin full-scale research and development on high-power laser driver for fusion reactor and compact laser fusion power generation. Since then, over the past 30 years, we have continued to take on the challenge of realizing laser fusion in collaboration with governments, research institutes, universities, and companies.
We are also the only private company that is working on not only high-power laser devices but also fuel targets, detectors and measuring instruments such as photomultiplier tubes and streak cameras, all of which are essential for research, using our own technologies.
Our current efforts
High power laser technologies
We are developing laser driver for fusion reactor, designed for use in practical power plant. We are involved in-house in everything from the development of laser amplifiers for even higher output power to the research, development, and manufacture of the laser diode bar modules that are used in these amplifiers.
We will continue to develop semiconductor lasers and high power lasers more optimized for laser fusion reactions.
Related press releases:
"Hamamatsu Photonics develops an industrial pulsed laser system delivering the world’s highest output power of 250 joules" (June 28, 2021)
Generation, measurement and control technologies of high energy density plasma
We are developing a plastic capsule with a few mili meters in diameter containing deuterium and tritium.
This plastic capsule plays an important role in imploding fuel, and high sphericity and uniform wall thickness are required. In addition, Since a single capsule is consumed for each fusion reaction, laser fusion power plant consumes 10 capsules per second, or 300 million capsules per year, requiring mass production technology at low cost.
We are also developing detectors for measuring and observing ultrahigh-speed phenomena in high-power lasers, which are the backbone of laser fusion.
The streak camera for measurement is an ultrafast photodetector that captures the optical phenomena that occur in an extremely short time.
Laser fusion research
We are conducting a variety of R&D activities aimed at realizing laser fusion power generation that takes advantage of the features that enable continuous irradiation of high-power lasers.
Key technologies to generate continuous fusion energy
In order to realize laser fusion power generation, a technology to irradiate a fuel target by laser beams at a 10 cycle per second is required.
This requires technology for stable and precise laser emission at a high repetition rate, as well as technology for continuously supplying a fuel target and directing the laser beam.
Fusion plasma diagnosis and measurement
The technology to measurement shot by shot of fusion reaction generated continuously is also very important.
We have acquired a large amount of data from fusion experiments conducted under various conditions, and by utilizing machine learning, we are aiming to search for conditions that will produce a highly efficient fusion reaction.
・Large amounts of reproducibility data
・Use of database construction and machine learning
Applications that extend beyond
We have been engaged mainly in the development of high-power laser technology to realize laser fusion for more than 30 years, and the technologies and products we have developed in the process have also created new applications
To explore other applications
Development into products and technologies
- Confirmation
-
It looks like you're in the . If this is not your location, please select the correct region or country below.
You're headed to Hamamatsu Photonics website for JP (English). If you want to view an other country's site, the optimized information will be provided by selecting options below.
In order to use this website comfortably, we use cookies. For cookie details please see our cookie policy.
- Cookie Policy
-
This website or its third-party tools use cookies, which are necessary to its functioning and required to achieve the purposes illustrated in this cookie policy. By closing the cookie warning banner, scrolling the page, clicking a link or continuing to browse otherwise, you agree to the use of cookies.
Hamamatsu uses cookies in order to enhance your experience on our website and ensure that our website functions.
You can visit this page at any time to learn more about cookies, get the most up to date information on how we use cookies and manage your cookie settings. We will not use cookies for any purpose other than the ones stated, but please note that we reserve the right to update our cookies.
1. What are cookies?
For modern websites to work according to visitor’s expectations, they need to collect certain basic information about visitors. To do this, a site will create small text files which are placed on visitor’s devices (computer or mobile) - these files are known as cookies when you access a website. Cookies are used in order to make websites function and work efficiently. Cookies are uniquely assigned to each visitor and can only be read by a web server in the domain that issued the cookie to the visitor. Cookies cannot be used to run programs or deliver viruses to a visitor’s device.
Cookies do various jobs which make the visitor’s experience of the internet much smoother and more interactive. For instance, cookies are used to remember the visitor’s preferences on sites they visit often, to remember language preference and to help navigate between pages more efficiently. Much, though not all, of the data collected is anonymous, though some of it is designed to detect browsing patterns and approximate geographical location to improve the visitor experience.
Certain type of cookies may require the data subject’s consent before storing them on the computer.
2. What are the different types of cookies?
This website uses two types of cookies:
- First party cookies. For our website, the first party cookies are controlled and maintained by Hamamatsu. No other parties have access to these cookies.
- Third party cookies. These cookies are implemented by organizations outside Hamamatsu. We do not have access to the data in these cookies, but we use these cookies to improve the overall website experience.
3. How do we use cookies?
This website uses cookies for following purposes:
- Certain cookies are necessary for our website to function. These are strictly necessary cookies and are required to enable website access, support navigation or provide relevant content. These cookies direct you to the correct region or country, and support security and ecommerce. Strictly necessary cookies also enforce your privacy preferences. Without these strictly necessary cookies, much of our website will not function.
- Analytics cookies are used to track website usage. This data enables us to improve our website usability, performance and website administration. In our analytics cookies, we do not store any personal identifying information.
- Functionality cookies. These are used to recognize you when you return to our website. This enables us to personalize our content for you, greet you by name and remember your preferences (for example, your choice of language or region).
- These cookies record your visit to our website, the pages you have visited and the links you have followed. We will use this information to make our website and the advertising displayed on it more relevant to your interests. We may also share this information with third parties for this purpose.
Cookies help us help you. Through the use of cookies, we learn what is important to our visitors and we develop and enhance website content and functionality to support your experience. Much of our website can be accessed if cookies are disabled, however certain website functions may not work. And, we believe your current and future visits will be enhanced if cookies are enabled.
4. Which cookies do we use?
There are two ways to manage cookie preferences.
- You can set your cookie preferences on your device or in your browser.
- You can set your cookie preferences at the website level.
If you don’t want to receive cookies, you can modify your browser so that it notifies you when cookies are sent to it or you can refuse cookies altogether. You can also delete cookies that have already been set.
If you wish to restrict or block web browser cookies which are set on your device then you can do this through your browser settings; the Help function within your browser should tell you how. Alternatively, you may wish to visit www.aboutcookies.org, which contains comprehensive information on how to do this on a wide variety of desktop browsers.
5. What are Internet tags and how do we use them with cookies?
Occasionally, we may use internet tags (also known as action tags, single-pixel GIFs, clear GIFs, invisible GIFs and 1-by-1 GIFs) at this site and may deploy these tags/cookies through a third-party advertising partner or a web analytical service partner which may be located and store the respective information (including your IP-address) in a foreign country. These tags/cookies are placed on both online advertisements that bring users to this site and on different pages of this site. We use this technology to measure the visitors' responses to our sites and the effectiveness of our advertising campaigns (including how many times a page is opened and which information is consulted) as well as to evaluate your use of this website. The third-party partner or the web analytical service partner may be able to collect data about visitors to our and other sites because of these internet tags/cookies, may compose reports regarding the website’s activity for us and may provide further services which are related to the use of the website and the internet. They may provide such information to other parties if there is a legal requirement that they do so, or if they hire the other parties to process information on their behalf.
If you would like more information about web tags and cookies associated with on-line advertising or to opt-out of third-party collection of this information, please visit the Network Advertising Initiative website http://www.networkadvertising.org.
6. Analytics and Advertisement Cookies
We use third-party cookies (such as Google Analytics) to track visitors on our website, to get reports about how visitors use the website and to inform, optimize and serve ads based on someone's past visits to our website.
You may opt-out of Google Analytics cookies by the websites provided by Google:
https://tools.google.com/dlpage/gaoptout?hl=en
As provided in this Privacy Policy (Article 5), you can learn more about opt-out cookies by the website provided by Network Advertising Initiative:
http://www.networkadvertising.org
We inform you that in such case you will not be able to wholly use all functions of our website.
Close