Photon Collection

Particle physics equations

Particle physics equations

Mosler MT900S Photon

Quantum cryptography equipment
Quantum cryptography. Eye of an observer reflected in a mirror in quantum cryptography apparatus. Quantum cryptography is based on the principle of entanglement

Illustration of how a solar-powered calculator works, photon giving energy to an electron in a silicon atom, electron then flies out and joins with others to make electric current

Illustration of light bulb creating light in a stream of tiny photons acting as waves and particles

Double-slit experiment, artwork C018 / 0929
Double slit experiment, computer artwork. Laser beams (green) are shone at a plate (centre) containing two slits. The light that passes through is observed on a screen (right) behind the plate

Proton collision C014 / 1813
Particles-eye view of particle tracks from a proton-proton collision in the ATLAS (a toroidal LHC apparatus) detector at CERN (the European particle physics laboratory) near Geneva, Switzerland

Electron-positron collision C014 / 1799
Two sets of particle tracks from electron-positron collisions seen by the ALEPH (Apparatus for LEP physics at CERN) detector at CERN (the European particle physics laboratory) near Geneva

Photon emission, artwork
Photon emission. Computer artwork of an atom (large sphere) emitting a photon (yellow). The atom consists of a nucleus (blue, centre), which contains neutrons and protons (not shown)

Sunbeams, conceptual artwork C013 / 5640
Sunbeams, conceptual computer artwork

Photons, conceptual artwork C013 / 5628
Photons, conceptual computer artwork

Higgs boson research, CMS detector C013 / 6887
Higgs boson research. Graphic of a longitudinal section through a detector showing a collision event recorded during the search for the Higgs boson

Higgs boson research, CMS detector C013 / 6885
Higgs boson research. 3D computer graphic showing one of the numerous particle collision events recorded during the search for the Higgs boson

Higgs boson research, CMS detector C013 / 6886
Higgs boson research. Graphic of a transverse section through a detector showing a collision event recorded during the search for the Higgs boson

Early history of the universe, artwork
Early history of the universe. Artwork showing the cooling and expansion of the early universe from its origin in the Big Bang (upper left)

Multiple universes, artwork
Multiple universes. Artwork showing multiple universes forming from black holes following the Big Bang formation of the initial universe at top left

String theory, artwork
This is an artistic representation of a closed vibrating string from string theory. A string is a hypothetical sub-atomic structure and one of the main objects of study in string theory

Quantum sphere

Muon and neutrino detector, artwork
Neutrino particle detector. Computer artwork of neutrinos (red lines) passing through the Earth and being detected by the Antarctic muon and neutrino detector array (AMANDA, bottom)

Quantum entanglement equipment
Quantum physicists with equipment used in a quantum entanglement experiment. Entanglement is a property of a pair of particles in which a change to one has an instantaneous effect on the other

Quantum entanglement apparatus
Quantum entanglement experiment. Face of a quantum physicist refracted in the lens of a receiver in a quantum entanglement experiment

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"Unlocking the Mysteries of Photons: From Particle Physics Equations to Quantum Cryptography" In the vast realm of particle physics equations, one tiny entity stands out - the photon. This enigmatic particle holds immense power and potential, transcending various domains of science and technology. From the sleek Mosler MT900S Photon supercar to cutting-edge quantum cryptography equipment, photons play a pivotal role in shaping our modern world, and are not merely theoretical constructs but tangible entities that impact our daily lives. Imagine a solar-powered calculator at work; it is powered by photons giving energy to electrons within silicon atoms. These energized electrons then soar outwards, joining forces with others to create an electric current - a testament to the photon's ability to spark life into motion. A light bulb illuminates our surroundings through an intricate dance of countless tiny photons acting as both waves and particles. Their mesmerizing interplay creates vibrant streams of light that brighten up our world. The double-slit experiment, depicted in artwork C018 / 0929, showcases how photons exhibit wave-particle duality. As they pass through two slits simultaneously, they interfere with themselves, leaving behind intriguing patterns on a screen – evidence of their mysterious nature. Proton collisions (C014 / 1813) and electron-positron collisions (C014 / 1799) provide glimpses into high-energy experiments where photons emerge as key players. These collisions unleash unimaginable energies and reveal new insights into fundamental particles' behavior. Artwork depicting photon emissions captures their ethereal essence beautifully. Bursting forth from atomic transitions or other energetic processes, these emitted photons carry information about distant stars or illuminate microscopic realms hidden from human sight. Sunbeams radiate warmth and vitality; conceptual artwork C013 / 5640 portrays their captivating beauty while highlighting the underlying presence of countless dancing photons responsible for this natural phenomenon.