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Dead cone effect ALICE detector
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Dead cone effect ALICE detector
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Peter Higgs (b 1929 right) British theoretical physicist at the ALICE (a large ion collider experiment) detector CERN (the European particle phys
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Editorial use only This image may not be used to state or imply endorsement by CERN of any product activity or service BMODEL RELEASEDb BATLAS
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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ATLAS detector CERN ATLAS (A Toroidal LHC Apparatus) is one of six detector experiments at the Large Hadron Collider (LHC) particle accelerator at
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WA1 neutrino detector Technicians working on the WA1 neutrino detector at CERN the particle physics laboratory near Geneva The outside of the detec
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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High-energy collision of a lead ion the nucleus of a lead atom In this electronic display from the NA49 experiment at CERN the European particle p
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Quark structure of the proton Computer visualisation of the structure of the proton one of the building blocks of atomic nuclei The three objects s
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Quarks Conceptual computer illustration showing quarks as building blocks Quarks are sub- atomic particles which make up the larger particles such a
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Quark-gluon plasma Computer model of a quark- gluon plasma The red green and blue spheres are quarks which are normally bound together by gluons t
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration by RICHARD JONESSCIENCE PHOTO LIBRARY
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Subatomic particles and atoms conceptual illustration
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Visualisation of the early universe This image depicts particles in the quark-gluon soup which existed less than one millionth of a second after t
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Axions conceptual illustration
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Axions conceptual illustration
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The neutron is a subatomic particle with no electric charge and a mass slightly larger than that of a proton It has one up quark and two down quarks
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Quarks Computer illustration of the six types (or flavours) of quark Quarks are sub-atomic particles which make up the larger particles such as the
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Proton structure Computer artwork showing the constituent parts of a proton The proton is made up of three quarks (blue and white) held together by
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Neutron structure Computer artwork showing the constituent parts of a neutron The neutron is made up of three quarks (blue and white) held together
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Quarks Computer illustration of the six types (or flavours) of quark Quarks are sub-atomic particles which make up the larger particles such as the
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Structural view of a proton with two up quarks (blue and red) and one down quark (green) and a neutron with one up quark (green) and two down quarks (
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Structural view of a proton with two up quark (red and blue) and one down quark (green) The forces between quarks are mediated by gluons The proton
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Structural view of a proton with two up quarks (blue and red) and one down quark (green) The forces between quarks are mediated by gluons (yellow) T
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Structural view of a neutron with one up quark (green) and two down quarks (red and blue) The forces between quarks are mediated by gluons The neutr
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Structural view of a neutron with one up quark (blue) and two down quarks (red and green) The forces between quarks are mediated by gluons (yellow)
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Conceptual illustration of the Higgs particle (orange top and bottom) being produced by colliding two protons The protons are each composed of three
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Illustration of the internal structure of a proton A proton is a subatomic particle with a positive electrical charge found inside the nucleus of an
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Quarks Computer artwork of the six types (or flavours) of quark Quarks are sub-atomic particles which make up the larger particles such as the bar
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Helium nucleus Computer artwork of the nucleus of a helium atom or an alpha particle given off during radioactive decay The nucleus consists of two
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Illustration of the internal structure of a proton A proton is a subatomic particle with a positive electrical charge found inside the nucleus of an
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Illustration of the internal structure of a neutron A neutron is a subatomic particle without electrical charge found inside the nucleus of an atom
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Illustration of the internal structure of a neutron A neutron is a subatomic particle without electrical charge found inside the nucleus of an atom
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Illustration of the internal structure of a neutron A neutron is a subatomic particle without electrical charge found inside the nucleus of an atom
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Illustration of the internal structure of a proton A proton is a subatomic particle with a positive electrical charge found inside the nucleus of an
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Conceptual fractal illustration of quantum chromodynamics (QCD) the theory of strong interactions a fundamental force describing the interactions be
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Baryon particle Computer illustration showing the quantum structure of a baryon particle A baryon is a composite subatomic particle and one of two f
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Baryon particle Computer illustration showing the quantum structure of a baryon particle A baryon is a composite subatomic particle and one of two f
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Quark structure of the uranium nucleus Computer visualisation of the nucleus of a uranium atom The most common isotope uranium-238 consists of 92
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Quark structure of the carbon nucleus Computer visualisation of the nucleus of a carbon atom The most common isotope carbon-12 consists of six pro
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Baryon particle Computer illustration showing the quantum structure of a baryon particle A baryon is a composite subatomic particle and one of two f
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Baryon particle Computer illustration showing the quantum structure of a baryon particle A baryon is a composite subatomic particle and one of two f
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Baryon particle Computer illustration showing the quantum structure of a baryon particle A baryon is a composite subatomic particle and one of two f
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ATLAS detector CERN Switzerland
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ATLAS detector CERN Switzerland
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ATLAS detector CERN Switzerland
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ATLAS detector CERN Switzerland
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ATLAS detector CERN Switzerland
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Quark structure of the proton Computer visualisation of the structure of the proton one of the building blocks of atomic nuclei The three objects s
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Quark structure of the neutron Computer visualisation of the structure of the neutron one of the building blocks of atomic nuclei The three objects
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ATLAS detector CERN Switzerland
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Conceptual fractal illustration of quantum chromodynamics (QCD) the theory of strong interactions a fundamental force describing the interactions be
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Conceptual fractal illustration of quantum chromodynamics (QCD) the theory of strong interactions a fundamental force describing the interactions be
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Subatomic particles View from nucleus of a lithium atom outward with cross section of a proton and a neutron showing quarks and gluons
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Subatomic particles View from nucleus of a lithium atom outward with cross section of a proton and a neutron showing quarks and gluons Labelled
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Quark model of particle physics Computer illustration showing the composite particles and how they are related in the quark model of particle physics
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Large Hadron Collider under construction
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Large Hadron Collider under construction
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Quark structure of the uranium nucleus Computer visualisation of the nucleus of a uranium atom The most common isotope uranium-238 consists of 92
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Quark structure of the gold nucleus Computer visualisation of the nucleus of a gold atom The most common isotope gold-197 consists of 79 protons a
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Large Hadron Collider under construction
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Atomic structure Conceptual computer artwork of nine electrons orbiting a central nucleus Other particles are seen around the atom This is a classi
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Atomic structure Conceptual computer artwork of nine electrons orbiting a central nucleus Other particles are seen around the atom This is a classi
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Atomic structure Conceptual computer artwork of nine electrons orbiting a central nucleus Other particles are seen around the atom This is a classi
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Quark structure of the gold nucleus Computer visualisation of the nucleus of a gold atom The most common isotope gold-197 consists of 79 protons a
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Three-jet event in ZEUS detector DESY
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Three-jet event in JADE detector DESY
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Quark structure of the carbon nucleus Computer visualisation of the nucleus of a carbon atom The most common isotope carbon-12 consists of six pro
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Quark structure of the silicon nucleus Computer visualisation of the nucleus of a silicon atom The most common isotope silicon-28 consists of 14 p
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Quark structure of the neutron Computer visualisation of the structure of the neutron one of the building blocks of atomic nuclei The three objects
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