Standard Model Collection

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

Higgs boson, conceptual artwork
Higgs boson, conceptual computer artwork. The Higgs boson is a proposed fundamental particle that is thought to give other particles mass

Higgs boson, conceptual artwork
Higgs boson, conceptual computer artwork. The Higgs boson is a proposed fundamental particle that is thought to give other particles mass

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

British physicist Prof. Peter Higgs C015 / 4138
British theoretical physicist Professor Peter Higgs (b. 1929). In 1964, Higgs predicted the existence of a new type of fundamental particle, commonly called the Higgs boson

Higgs Boson particle, artwork
Higgs Boson particle. Computer artwork of a yellow sphere in a circular chamber with light emanating from behind it. This could represent the Higgs Boson particle being discovered in a particle

Oxygen atomic structure, artwork
Oxygen atomic structure. Computer artwork showing the structure of an oxygen atom. Each oxygen atom contains 8 electrons (blue) orbiting the atomic nucleus (centre)

Structure of matter, artwork C018 / 0948
Structure of matter. Computer artwork representing the Standard Model of particle physics. Shown here is a molecule of water (top centre)

British physicist Prof. Peter Higgs C015 / 4139
British theoretical physicist Professor Peter Higgs (b. 1929). In 1964, Higgs predicted the existence of a new type of fundamental particle, commonly called the Higgs boson

British physicist Prof. Peter Higgs C015 / 4134
British theoretical physicist Professor Peter Higgs (b. 1929). In 1964, Higgs predicted the existence of a new type of fundamental particle, commonly called the Higgs boson

Guido Tonelli, CERN physicist. Guido Tonelli (born 1950) is an Italian physicist who is one of the leaders of the Compact Muon Solenoid (CMS) project

Structure of matter, artwork C017 / 8029
Structure of matter. Computer artwork representing the Standard Model of particle physics. Shown here are an atom (left) composed of electrons (blue) orbiting a central nucleus

Higgs boson research, ATLAS detector C013 / 6893
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, ATLAS detector C013 / 6894
Higgs boson research. Graphic of a transverse section through a detector showing one of the numerous particle collision events recorded during the search for the Higgs boson

Higgs boson research, ATLAS detector C013 / 6891
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, ATLAS detector C013 / 6889
Higgs boson research. Graphic of a transverse section through a detector showing one of the numerous particle collision events recorded during the search for the Higgs boson

Higgs boson research, ATLAS detector C013 / 6890
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, ATLAS detector C013 / 6888
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 / 6887
Higgs boson research. Graphic of a longitudinal section through a detector showing a collision event recorded during the search for the Higgs boson

Peter Higgs, British physicist C013 / 6881
Peter Higgs (born 1929), British theoretical physicist, at the Higgs boson discovery announcement, 4th July 2012, at CERN (the European particle physics laboratory)

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

Englert and Higgs at CERN C013 / 6880
Francois Englert (born 1932, left) and Peter Higgs (born 1929, right), Belgian and British theoretical physicists, at the Higgs boson discovery announcement, 4th July 2012

Higgs boson research, CMS detector C013 / 6884
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 / 6882
Higgs boson research. 3D computer graphic showing one of the numerous particle collision events recorded during the search for the Higgs boson

Francois Englert, Belgian physicist C013 / 6879
Francois Englert (born 1932), Belgian theoretical physicist, at the Higgs boson discovery announcement, 4th July 2012, at CERN (the European particle physics laboratory)

Higgs boson discovery announcement C013 / 6877
Higgs boson discovery announcement, 4th July 2012. Joe Incandela, spokesperson for the CMS (Compact Muon Solenoid) experiment

Higgs boson discovery announcement C013 / 6875
Higgs boson discovery announcement, 4th July 2012. Joe Incandela, spokesperson for the CMS (Compact Muon Solenoid) experiment

Higgs boson discovery announcement C013 / 6876
Higgs boson discovery announcement, 4th July 2012. Joe Incandela, spokesperson for the CMS (Compact Muon Solenoid) experiment

Higgs boson, artwork
Higgs boson. Artwork representing the elementary particle known as the Higgs boson (centre). The existence of this hypothetical particle is predicted by the Standard Model of particle physics

Supersymmetric particle production. Computer artwork showing the results of a collision between a quark (pink) and an antiquark (blue)

Atom, artwork
Atomic structure. Conceptual computer artwork of nine electrons orbiting a central nucleus. Other particles are seen around the atom. This is a classical schematic Bohr model of an atom

Atomic structure, conceptual artwork
Atomic structure. Conceptual computer artwork of electron orbit paths as rings around the central nuclei (dark clusters) of atoms. This is a classical schematic Bohr model of atoms

Atomic energy, conceptual artwork
Atomic energy. Conceptual computer artwork of a reaction occuring at the atomic level, showing a release of energy. Electron orbit paths are seen as rings around the central nuclei (dark clusters)

All Professionally Made to Order for Quick Shipping

The standard model, a groundbreaking theory in particle physics, has revolutionized our understanding of the fundamental building blocks of the universe. At its core lies the discovery of the elusive Higgs boson, a momentous event that shook the scientific community to its core. Intricate and complex experiments conducted at CERN's ATLAS detector, such as C013 / 6892, played an integral role in unraveling this mysterious particle. Conceptual artworks depicting the Higgs boson give us a glimpse into its ethereal nature and profound significance. One cannot discuss the standard model without acknowledging British physicist Prof. Peter Higgs, whose pioneering work laid the foundation for this remarkable breakthrough. His tireless dedication and brilliant insights led to his immortalization in artwork like C015 / 4138 and further solidified his place in scientific history. The Higgs Boson particle itself is beautifully portrayed through captivating artwork that captures both its elegance and complexity. This tiny entity holds immense importance as it provides mass to other particles within our universe. Beyond just unveiling the secrets of subatomic particles, this revolutionary theory also sheds light on larger structures like oxygen atomic arrangements (as depicted in artwork) and even delves into exploring matter's intricate structure (artwork C018 / 0948). The standard model encompasses all these aspects seamlessly, offering a comprehensive framework for understanding our physical world. Guido Tonelli, a distinguished physicist at CERN who contributed significantly to studying these phenomena, adds another layer of expertise to this monumental endeavor. His invaluable contributions have propelled humanity towards new frontiers of knowledge. As we continue to delve deeper into understanding reality at its most fundamental level, it is clear that the standard model stands as one of humanity's greatest achievements. It unifies diverse concepts while providing us with unparalleled insights into how our universe operates – forever changing our perception of existence itself.