Fusing 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

Higgs boson, artwork C018 / 0936
Higgs boson. Computer artwork showing a Higgs boson particle, which was formed by the collision of two protons, decaying into a pair of Z bosons, one of which decays to a pair of electrons

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

Nuclear fusion, artwork C017 / 7664
Nuclear fusion, computer artwork. At left are the atomic nuclei of deuterium (top left) and tritium (bottom left). Atomic nuclei consist of protons (white and purple) and neutrons (pink)

Paramyxovirus particles, TEM
Sendai virus. Coloured transmission electron micrograph (TEM) of Sendai virus particles (virions, orange). The protein coat (capsid) of one of the particles has split

Nuclear fusion, conceptual artwork

Illustration of human sperm fusing with ovum during conception

Pressed amber also known as ambroid which is formed by fusing small pieces of amber together

Duality motif

Sunspot, artwork C017 / 7364
Sunspot. Computer artwork of a section of the Suns surface, showing a sunspot (dark, centre-left). Sunspots are temporary dark areas that appear on the photosphere (outer surface) of the Sun

Nuclear fusion, artwork C017 / 7666
Nuclear fusion, computer artwork. At left are the atomic nuclei of deuterium (top left) and tritium (bottom left). Atomic nuclei consist of protons (white and purple) and neutrons (pink)

Nuclear fusion, artwork C017 / 7665
Nuclear fusion, computer artwork. At left are the atomic nuclei of deuterium (top left) and tritium (bottom left). Atomic nuclei consist of protons (white and purple) and neutrons (pink)

Lumbar spine fusion, artwork C016 / 6993
Lumbar spine fusion. Artwork of pins and screws inserted into a patients lumbar spine in a case of spinal fusion. The pins hold together the patients vertebrae

Fusion reactor, artwork C016 / 7497
Fusion reactor. Computer artwork of a reactor in which hydrogen fusion is taking place. Nuclear fusion is the joining (fusing) of light elements to form heavier elements

Fusion reactor, conceptual image C013 / 5944
Fusion reactor, conceptual image. Computer artwork representing a reactor in which hydrogen fusion is taking place. Nuclear fusion is the joining (fusing) of light elements to form heavier elements

Colliding beam fusion reactor, computer artwork. This is one design for a nuclear fusion reactor that could be used for producing power

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

Tobacco plant protoplasts, SEM
Protoplasts. Coloured scanning electron micrograph (SEM) of two tobacco plant (Nicotiana tabacum) protoplasts fusing. A protoplast is a plant cell that has had its tough outer cell wall removed by

ZP3 glycoprotein molecule
ZP3 glycoprotein. Computer artwork of a molecule of ZP3 (zona pellucida glycoprotein 3), a sperm receptor in the external membrane (zona pellucida) of a female germ cell (egg)

Nuclear fusion reactions, computer artwork. These three reactions are being investigated for use in fusion power. Protons are red and neutrons blue

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"Fusing the Boundaries: Exploring the Marvels of Fusion Research and Beyond" In the realm of scientific exploration, fusion research stands at the forefront, captivating minds with its potential to unlock limitless energy. The tokamak device emerges as a symbol of this quest for sustainable power, harnessing the immense forces within plasma to recreate conditions akin to those found in stars. While scientists delve into understanding nuclear fusion, another enigma unfolds – the Higgs boson. Like an ethereal artwork (C018 / 0936), it reveals itself through intricate patterns that shape our universe's fabric. Its discovery brings us closer to comprehending fundamental particles and their role in shaping existence. Yet beyond these microscopic wonders lie practicalities; maintenance becomes paramount in ensuring efficient fusion reactors (T180 / 0078). Engineers work diligently on upkeep, safeguarding these complex machines that hold humanity's energy future. Zooming further into unseen realms, we encounter paramyxovirus particles under a TEM microscope. Their delicate structures hint at both beauty and danger – reminding us of nature's ability to fuse elegance with threat. Conceptual artworks depicting nuclear fusion transport us into imaginative landscapes where boundless energy intertwines with human creativity (C017 / 7664-7666). These visualizations capture our collective fascination with merging science and artistry - duality motif personified. However, fusing is not limited solely to scientific endeavors; life itself showcases this phenomenon profoundly. An illustration portrays the miraculous moment when human sperm fuses with an ovum during conception - a wondrous union that initiates new life. Even celestial bodies partake in this cosmic dance; sunspots emerge as mesmerizing artwork (C017 / 7364) on our star’s surface. These magnetic storms reveal themselves through vibrant hues while embodying nature’s mastery of blending contrasting elements seamlessly together. As we contemplate lumbar spine fusion artwork (C016 / 6993), we witness the fusion of medical expertise and artistic representation.