Fraud Blocker Skip to main content

Particles Collection

Background imageParticles Collection: Higgs boson event, ATLAS detector C013 / 6892

Higgs boson event, ATLAS detector C013 / 6892
Higgs boson event. Graphic of a transverse section through a detector showing one of the numerous particle collision events recorded during the search for the Higgs boson

Background imageParticles Collection: Erwin Schrodinger

Erwin Schrodinger
ERWIN SCHRODINGER Austrian physicist whose research into subatomic particles is the basis of quantum mechanics

Background imageParticles Collection: Simulation of Higgs boson production

Simulation of Higgs boson production
^BSimulated detection of Higgs boson. ^b Computer simulation of an event in which the decay of a Higgs boson particle produces four muons. Two of these muons are seen here (green tracks)

Background imageParticles Collection: Saturns rings, Cassini image

Saturns rings, Cassini image. The rings consist of particles of nearly pure water ice and meteoric dust and span almost 300, 000 kilometres

Background imageParticles Collection: Niels Bohr, caricature

Niels Bohr, caricature
Niels Bohr (1885-1962). Caricature of the Danish physicist Niels Henrik David Bohr, blowing orbiting electrons out of his pipe. Bohr won the Nobel Prize for Physics in 1922

Background imageParticles Collection: Nuclear Fission Artwork

Nuclear Fission Artwork
Nuclear fission. Conceptual computer artwork of an atom being split through nuclear, or atomic, fission (splitting)

Background imageParticles Collection: Newtons Opticks with colour Spectrum

Newtons Opticks with colour Spectrum
Opticks by the English physicist and mathematician Sir Isaac Newton (1642-1727), published in 1704 with a colour spectrum produced by a prism projected across the title page

Background imageParticles Collection: Simulation of Higgs boson production

Simulation of Higgs boson production
Simulated detection of Higgs boson. Computer simulation of an event in which the decay of a Higgs boson particle produces four muons. Two of these muons are seen here (green tracks)

Background imageParticles Collection: Ezekiels vision of chariot in sky and a hand in the clouds holding out a book to him, c

Ezekiels vision of chariot in sky and a hand in the clouds holding out a book to him, c.614 BC. Bible: Ezekiel II:9

Background imageParticles Collection: Plutonium, atomic model

Plutonium, atomic model
Plutonium. Schematic Bohr model of a plutonium atom. the 94 electrons (red) are orbiting a central nucleus (not shown) composed of protons and neutrons

Background imageParticles Collection: Norovirus particles, TEM

Norovirus particles, TEM
Norovirus particles. Coloured transmission electron micrograph (TEM) of norovirus particles

Background imageParticles Collection: Emulsion photo of decay of kaon into pions

Emulsion photo of decay of kaon into pions
The first observation of the decay of a kaon into 3 pions, recorded in special photographic emulsion by Cecil Powells team at Bristol University in 1948

Background imageParticles Collection: Simulation of Higgs boson production

Simulation of Higgs boson production
Simulated detection of Higgs boson. Computer simulation of an event in which the decay of a Higgs boson particle produces four muons (red tracks)

Background imageParticles Collection: Protozoa, a single-celled organism that feeds by scavenging for particles and other microorganisms

Protozoa, a single-celled organism that feeds by scavenging for particles and other microorganisms, such as bacteria, or by absorbing nutrients from their environment

Background imageParticles Collection: Glass Prism refracting colour spectrum

Glass Prism refracting colour spectrum
Flint Glass Prism refracting the colour spectrum. Computer artwork. A narrow slit of light is focussed towards the prism which refracts the light into the colour spectrum

Background imageParticles Collection: Werner Heisenberg, German physicist C017 / 7123

Werner Heisenberg, German physicist C017 / 7123
Werner Karl Heisenberg (1901-1976), German physicist. Heisenberg was awarded the 1932 Nobel Prize in Physics for his work on a matrix theory of quantum mechanics

Background imageParticles Collection: Coronavirus particles, TEM

Coronavirus particles, TEM
Coronavirus particles. Coloured transmission electron micrograph (TEM) of three coronavirus particles

Background imageParticles Collection: Infections spread by sneezing, artwork C013 / 5949

Infections spread by sneezing, artwork C013 / 5949
Infections spread by sneezing. Computer artwork showing virus particles (virions, blue) and bacteria (rod-shaped) in the spray produced by someone when they sneeze

Background imageParticles Collection: Influenza virus particles, TEM

Influenza virus particles, TEM
Influenza virus particles, coloured transmission electron micrograph (TEM). This virus is the cause of the respiratory disease influenza (flu) in humans and other animals

Background imageParticles Collection: Hepatitis C viruses, TEM

Hepatitis C viruses, TEM
Hepatitis C viruses. Coloured transmission electron micrograph (TEM) of hepatitis C virus particles (green) infecting cultured liver cells (purple)

Background imageParticles Collection: Evolution of the Universe, artwork

Evolution of the Universe, artwork
Evolution of the Universe. Computer artwork showing the evolution of the Universe from the Big Bang (far left) 12-15 billion years ago to the present day (far right)

Background imageParticles Collection: Particle collision

Particle collision. This event takes place in particle accelerators, which are used to accelerate particles (spheres) such as protons to high energies near the speed of light

Background imageParticles Collection: Rift Valley fever virus, TEM

Rift Valley fever virus, TEM

Background imageParticles Collection: Paramyxovirus particles, TEM

Paramyxovirus particles, TEM
Sendai virus. Coloured transmission electron micrograph (TEM) of Sendai virus particles (virions, orange)

Background imageParticles Collection: Particle accelerator

Particle accelerator. Trails (red) of energised particles inside a particle accelerator. Particle accelerators are used to accelerate particles such as protons to near the speed of light

Background imageParticles Collection: Penetrating power of Alpha, Beta and Gamma ray through Paper

Penetrating power of Alpha, Beta and Gamma ray through Paper, Aluminium, Led and Concrete. Penetration power of alpha, beta and gamma radiation

Background imageParticles Collection: XX X X Letter Logo with Pink Letters and Purple Color Particles Dots Design

XX X X Letter Logo with Pink Letters and Purple Color Particles Dots Design

Background imageParticles Collection: Glitter silver border with space for text

Glitter silver border with space for text. Luxury glitter decoration. Silver sparkles and dust on transparent background. Bright design for Christmas, Glitter silver border with space for text

Background imageParticles Collection: Quantum physics: nucleus made up of 2 neutrons and 2 protons

Quantum physics: nucleus made up of 2 neutrons and 2 protons

Background imageParticles Collection: in the wind

in the wind
Silvia Guillet

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Aurora Borealis, Northern Lights, Troms region, Norway

Aurora Borealis, Northern Lights, Troms region, Norway

Background imageParticles Collection: Iron hitting flint being used to create a spark

Iron hitting flint being used to create a spark
5311538 Iron hitting flint being used to create a spark

Background imageParticles Collection: Autumn Upon Us

Autumn Upon Us
Mauro

Background imageParticles Collection: Data Points I

Data Points I
Amy Louise Baker

Background imageParticles Collection: Data Points III

Data Points III
Amy Louise Baker

Background imageParticles Collection: Bullet impact

Bullet impact
Mauro

Background imageParticles Collection: Fluid Mistery

Fluid Mistery
Mauro

Background imageParticles Collection: Chromatic Chaos

Chromatic Chaos
Mauro

Background imageParticles Collection: Amorphous Encounter

Amorphous Encounter
Mauro

Background imageParticles Collection: Microscopic views of human spermatozoa in semen

Microscopic views of human spermatozoa in semen
Microscopic views of human spermatozoa. View of the animalculae or organic particles in the semen. Handcoloured copperplate engraving by J

Background imageParticles Collection: A remarkable photograph (b / w photo)

A remarkable photograph (b / w photo)
3652723 A remarkable photograph (b/w photo) by English Photographer, (20th century); Private Collection; (add.info.: A remarkable photograph)

Background imageParticles Collection: Unified

Unified
John Colbensen

Background imageParticles Collection: Hectic afternoon

Hectic afternoon
Autumn and winter in the Julian Alps. Ales Krivec

Background imageParticles Collection: Oxygen atomic structure, artwork

Oxygen atomic structure, artwork
Oxygen atomic structure. Computer artwork showing the structure of an oxygen atom

Background imageParticles Collection: Comet Neowise

Comet Neowise; South Shields, Tyne and Wear, England

Background imageParticles Collection: Ezekiels vision of chariot in sky c. 614 BC. Bible Ezekiel II: 9. One modern explanation

Ezekiels vision of chariot in sky c. 614 BC. Bible Ezekiel II: 9. One modern explanation
Ezekiels vision of chariot in sky c.614 BC. Bible Ezekiel II:9

Background imageParticles Collection: Aurora Borealis or Northern Lights observed from Guildford

Aurora Borealis or Northern Lights observed from Guildford, Surrey, England, 14 October 1870

Background imageParticles Collection: Paul Dirac, caricature C013 / 7596

Paul Dirac, caricature C013 / 7596
Paul Dirac, caricature

Background imageParticles Collection: HIV infected macrophage, SEM C018 / 8598

HIV infected macrophage, SEM C018 / 8598
HIV infected macrophage. Coloured ion-abrasion scanning electron micrograph (IA-SEM) of a macrophage white blood cell infected with human immunodeficiency virus (HIV, red)

Background imageParticles Collection: Hepatitis B virus particles, artwork C016 / 9097

Hepatitis B virus particles, artwork C016 / 9097
Hepatitis B virus (HBV) particles, computer artwork. Each particle consists of an outer lipid envelope (green) that surrounds a protein nucleopcapsid (purple)

Background imageParticles Collection: Influenza virus particles, TEM

Influenza virus particles, TEM
Influenza virus particles, coloured transmission electron micrograph (TEM). The virus consists of ribonucleic acid (RNA), surrounded by a nucleocapsid (blue) and a lipid envelope (green)

Background imageParticles Collection: Viral recognition by antibodies, artwork C013 / 4722

Viral recognition by antibodies, artwork C013 / 4722
Viral recognition by antibodies. Computer artwork of rabies (family Rhabdoviridae) virus particles (virions, pink) being identified by monoclonal antibodies (Y-shaped, blue)

Background imageParticles Collection: HIV particles in infected cell, TEM

HIV particles in infected cell, TEM
HIV particles. Coloured transmission electron micrograph (TEM) of human immunodeficiency virus (HIV) particles (orange) in a host cell. HIV causes the disease AIDS

Background imageParticles Collection: Ducks and bird flu virus particles

Ducks and bird flu virus particles
Ducks and avian influenza virus particles, composite image. The virus particles (brown) have been imaged using a transmission electron microscope (TEM)

Background imageParticles Collection: Shingles nerve damage

Shingles nerve damage

Background imageParticles Collection: HIV viruses, TEM

HIV viruses, TEM
HIV viruses. Coloured transmission electron micrograph (TEM) of human immunodeficiency virus (HIV) particles. These particles are docking at a T-lymphocyte (white blood cell) just before infection

Background imageParticles Collection: Quantum particles

Quantum particles. Quantum mechanics is a branch of physics that describes particles in terms of quanta, discrete values rather than smooth changes

Background imageParticles Collection: 19th Century Flint Glass Prism L. tif C008 / 9532

19th Century Flint Glass Prism L. tif C008 / 9532
Computer artwork of 19th century flint glass prism c. 1790, mounted on a rotating brass stand, of a type used to repeat experiments by Sir Isaac Newton

Background imageParticles Collection: Infectious bronchitis virus (IBV), TEM

Infectious bronchitis virus (IBV), TEM
Infectious bronchitis virus (IBV) particles, coloured transmission electron micrograph (TEM). This virus is a member of the coronavirus family

Background imageParticles Collection: HIV particles, TEM

HIV particles, TEM
HIV (human immunodeficiency virus) particles, coloured transmission electron micrograph (TEM)

Background imageParticles Collection: Three states of matter: solid liquid gas

Three states of matter: solid liquid gas
Three states of matter, 3d computer illustration. From bottom to top the three states of matter are; solid, liquid and gas. Particles are in constant motion

Background imageParticles Collection: An inquisitive Boy poses a puzzler to his Father

An inquisitive Boy poses a puzzler to his Father. " Are we made of Dust Pa?" - " Certainly" - " Well, why don t we turn to mud when we drink?" !! Date: circa 1910s

Background imageParticles Collection: Splitting of the Atom - apparatus used by Dr J D Cockcroft

Splitting of the Atom - apparatus used by Dr J D Cockcroft
Dr John D Cockcroft listening for sounds indicating atomic disintegration brought about by the bombardment with high-velocity protons of the lithium nucleus

Background imageParticles Collection: Illustration of human lung with small pulmonary alveolus surrounded by small particles causing inflammation to lining

Illustration of human lung with small pulmonary alveolus surrounded by small particles causing inflammation to lining

Background imageParticles Collection: Illustration of development of idiopathic pulmonary fibrosis showing bronchus

Illustration of development of idiopathic pulmonary fibrosis showing bronchus and alveolus covered in small inorganic particles

Background imageParticles Collection: Illustration of bronchus and alveolus covered in inorganic particles

Illustration of bronchus and alveolus covered in inorganic particles, fibroblasts, and growth factor obstructing the internal lining

Background imageParticles Collection: Aurora borealis over Skagsanden beach

Aurora borealis over Skagsanden beach on Lofoten Islands, Norway, March 2016

Background imageParticles Collection: Micro plastics in pool, tiny nurdles and plastic debris in rockpool

Micro plastics in pool, tiny nurdles and plastic debris in rockpool, Gower Peninsula, West Glamorgan, Wales, March

Background imageParticles Collection: Solar eruption - in addition to giving off light and heat, during solar flares the

Solar eruption - in addition to giving off light and heat, during solar flares the Sun sends out clouds of particles and other emissions. NASA photograph

Background imageParticles Collection: Aurora Borealis or Northern Lights. Caused by high-speed particles ejected from the Sun

Aurora Borealis or Northern Lights. Caused by high-speed particles ejected from the Sun, they are most commonly observed during periods of maximum sunspots

Background imageParticles Collection: Aurora Borealis or Northern Lights. Curtain aurora observed from Greenland, 6 January 1861

Aurora Borealis or Northern Lights. Curtain aurora observed from Greenland, 6 January 1861

Background imageParticles Collection: Aurora Borealis or Northern Lights observed from the Isle of Sky

Aurora Borealis or Northern Lights observed from the Isle of Sky, Scotland, 11 September 1874

Background imageParticles Collection: Aurora Borealis or Northern Lights observed from German and southern Scandinavia

Aurora Borealis or Northern Lights observed from German and southern Scandinavia



All products are expertly crafted, using premium materials, tailored to your specifications and promptly shipped


EDITORS COMMENTS

"Unveiling the Mysteries of Particles: From Schrödinger to Higgs Boson" Delving into the realm of particles, we embark on a captivating journey through scientific discoveries and awe-inspiring phenomena. Erwin Schrödinger's groundbreaking work in quantum mechanics laid the foundation for our understanding of these minuscule building blocks. The monumental Higgs boson event, captured by the ATLAS detector C013 / 6892, marked a pivotal moment in particle physics. This elusive particle's simulation production unraveled secrets about mass and energy within our universe. As we gaze at Saturn's majestic rings through Cassini's lens, it reminds us that even celestial bodies are composed of countless particles interacting harmoniously. Niels Bohr's caricature graces this cosmic voyage, symbolizing his contributions to atomic theory and quantum mechanics. Newton's Opticks with its mesmerizing color spectrum captivates us as we explore how particles interact with light. The vibrant hues reveal their intricate dance within nature’s tapestry. Nuclear fission artwork showcases both the immense power and potential dangers associated with manipulating particles at their core. It serves as a reminder of humanity’s responsibility when harnessing such forces. Examining Norovirus particles under TEM unveils their microscopic structure, reminding us that even invisible entities can have profound impacts on our health and well-being. Once again, we encounter the simulation of Higgs boson production – an ongoing quest to unravel fundamental truths about our existence. Each iteration brings us closer to comprehending the origins and intricacies of matter itself. An emulsion photo captures the decay of kaons into pions – a fleeting glimpse into subatomic transformations that shape our world in ways unseen by most eyes but felt throughout nature. Ezekiel’s vision emerges from ancient texts—a chariot soaring amidst clouds while holding out a book—an enigmatic metaphor for divine knowledge reaching out to humanity.

© Copyright Media Storehouse, All Rights Reserved 2003 - 2025
Facebook     Pinterest     100% Payment Secure     Reviews IO