Tokamak Collection

Fusion research, tokamak device
Nuclear fusion research. Cutaway computer artwork of the planned ITER tokamak device. It will be the first full scale fusion device to produce energy at a level of an electricity-producing power

Tokamak-15 nuclear fusion reactor C013 / 1348
Tokamak-15 nuclear fusion reactor. Nuclear engineer standing on top of the Tokamak-15 (T-15) nuclear fusion reactor at the Kurchatov Institute of Nuclear Power, near Moscow, Russia

ITER fusion research reactor, computer artwork. ITER, the International Thermonuclear Experimental Reactor, is being designed to test the principles surrounding the generation of power from nuclear

Fusion reactor maintenance T180 / 0078
^BFusion reactor maintenance. ^b Technician in the interior of a Tokamak device, which confines hot plasma. This is used in the research of fusion as a future energy source

Tokamak T-4 at the Kurchatov Institute of Atomic Energy Artist: Anonymous
Tokamak T-4 at the Kurchatov Institute of Atomic Energy. Found in the collection of Russian Academy of Sciences

ITER Reaction vessel C018 / 3801
Artists concept view of the interior of the ITER reaction vessel. Nuclear fusion involves creating a plasma of superheated gas to temperatures of more than 200 million degrees C

ITER Fusion Research Reactor C016 / 9201
Artists concept view of the interior of the ITER reaction vessel. Nuclear fusion involves creating a plasma of superheated gas to temperatures of more than 200 million degrees C

Soviet physicists C013 / 4866
Soviet physicists. Pyotr Leonidovich Kapitsa (1894-1984, right) and Lev Artsimovich (1909-1973, left) in the back of a car. Artsimovich worked in the fields of nuclear fusion and plasma physics

Engineer working on tokamak fusion reactor at JET
Nuclear fusion reactor. An engineer welds compon- ents on the experimental tokamak nuclear fusion reactor at JET (Joint European Torus). The JET tokamak is the worlds biggest nuclear fusion machine

Nuclear fusion experiment. Electron stream (horizontal blue line) being channelled along a magnetic field line in a nuclear fusion experiment

Nuclear fusion reactor
Conceptual image. Inside the complex high tech engineered centre of a Nuclear Fusion Reactor. High temperature Plasma swirls around the Core inside the magnetic holding bottle

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The tokamak, a remarkable device at the forefront of fusion research, is revolutionizing our understanding of nuclear fusion. One such example is the ITER fusion research reactor, where scientists are tirelessly working towards achieving sustainable and clean energy through controlled fusion reactions. The Tokamak-15 nuclear fusion reactor C013 / 1348 stands as a testament to their dedication. Maintenance plays a crucial role in ensuring the smooth operation of these intricate machines. Engineers diligently carry out tasks like Fusion reactor maintenance T180 / 0078, guaranteeing that every component functions flawlessly. The Tokamak T-4 at the Kurchatov Institute of Atomic Energy, depicted by an anonymous artist, showcases both its scientific significance and artistic beauty. In pursuit of groundbreaking discoveries, projects like ITER Reaction vessel C018 / 3801 and ITER Fusion Research Reactor C016 / 9201 push boundaries with cutting-edge technology. These advancements owe much to Soviet physicists C013 / 4866 who laid the foundation for this field. Witnessing an engineer meticulously working on a tokamak fusion reactor at JET reminds us of the immense effort invested in unraveling the secrets behind nuclear fusion. It serves as a reminder that progress requires perseverance and collaboration among brilliant minds from around the world. Ultimately, these endeavors aim to unlock limitless clean energy possibilities while minimizing environmental impact—a noble goal indeed. With each new experiment conducted within these nuclear fusion reactors emerges hope for a brighter future powered by safe and sustainable energy sources.