Particle Collection (page 7)

Zero-point energy, artwork C014 / 1245
Zero-point energy. Artwork representing the concept of zero-point energy, related to that of vacuum energy and quantum fluctuations

Double-slit experiment, artwork C016 / 9862
Double-slit experiment Computer artwork showing a plane wave (top left) passing through a screen with two gaps. The gaps act as new wave sources

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)

Quantum entanglement, artwork C018 / 0945
Quantum entanglement, computer artwork. One of the strangest consequences of the quantum theories is that some quantum events can become entangled

Avian influenza virus, artwork F007 / 0954
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0955
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0953
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0951
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0949
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0952
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0947
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0948
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0945
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0944
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0942
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0943
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0938
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0939
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

Avian influenza virus, artwork F007 / 0940
Avian flu virus, computer artwork. A virus is a tiny pathogenic particle comprising genetic material enclosed in a protein coat. The coat contains surface proteins (spikes)

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)

Quantum entanglement, artwork C018 / 0944
Quantum entanglement, computer artwork. One of the strangest consequences of the quantum theories is that some quantum events can become entangled

Headache, conceptual artwork F006 / 8693
Headache, conceptual computer artwork

Microquasar X-ray binary system F006 / 9719
Artists impression of a microquasar X-ray binary. These binary star systems comprise a compact star (black hole or neutron star) which is in orbit about a larger companion (in this case)

Microquasar X-ray binary system F006 / 9712
Artists impression of a microquasar X-ray binary. These binary star systems comprise a compact star (black hole or neutron star) which is in orbit about a larger companion (in this case, a red dwarf)

West Nile virus and antibodies F006 / 9689
West Nile virus and antibodies. Molecular model of antibodies attached to the capsid of a west Nile virus. West Nile Virus is an arbovirus (arthropod-borne virus)

Bluetongue virus capsid, molecular model F006 / 9687
Bluetongue virus capsid, molecular model. This virus, transmitted by midges, causes bluetongue disease in ruminants (commonly sheep, and less frequently cattle, goats and deer)

Hepatitis E virus capsid, molecular model F006 / 9688
Hepatitis E virus capsid, molecular model. This virus causes the disease hepatitis E in humans. Transmitted by faecal-oral contact

Human poliovirus, molecular model F006 / 9434
Human poliovirus particle. Molecular model of the capsid of the human poliovirus. The capsid is a protein coat that encloses the viruss genetic information (genome), stored as RNA (ribonucleic acid)

Poliovirus particle F006 / 9306
Poliovirus particle, molecular model

Human poliovirus, molecular model F006 / 9289
Human poliovirus particle. Molecular model of the capsid of the human poliovirus. The capsid is a protein coat that encloses the viruss genetic information (genome), stored as RNA (ribonucleic acid)

Antibodies and viruses, artwork
Antibodies and viruses. Computer artwork showing antibody, or immunoglobulin, molecules (blue) surrounding virus particles (virions, yellow)

Reovirus particles, TEM C016 / 9443
Reovirus particles. Coloured transmission electron micrograph (TEM) of numerous reovirus particles (virions, round). Reoviruses affect the gastrointestinal system and respiratory tract

Bacteriophage P22, artwork C016 / 9334
Bacteriophage P22. Computer artwork of an enterobacteria phage P22 particle. A bacteriophage, or phage, is a virus that infects bacteria. Enterobacteria P22 infects Salmonella typhimurium bacteria

Rabies virus particle, artwork C016 / 9158
Rabies virus particle, computer artwork. This bullet-shaped particle consists of an RNA (ribonucleic acid) genome enclosed in protein capsid

Measles virus particle, artwork C016 / 9329
Measles virus particle, computer artwork. This virus, from the Morbillivirus group of viruses, consists of an RNA (ribonucleic acid)

Bacteriophage T4, artwork C016 / 8968
Bacteriophage T4. Computer artwork of an enterobacteria phage T4 particle. A bacteriophage, or phage, is a virus that infects bacteria. Enterobacteria T4 infects Escherichia coli bacteria

Yellow fever virus particles, TEM C016 / 9468
Yellow fever virus particles. Transmission electron micrograph (TEM) of yellow fever virus particles (virions, yellow). Yellow fever is endemic in tropical Africa and South America

Rabies virus particle, artwork C016 / 9157
Rabies virus particle, computer artwork. This bullet-shaped particle consists of an RNA (ribonucleic acid) genome enclosed in protein capsid

Hepatitis B virus particle, artwork C016 / 9129
Hepatitis B virus (HBV) particle, computer artwork. Each particle consists of an outer lipid envelope (green) that surrounds a protein nucleopcapsid (purple)

Flu virus, conceptual artwork C016 / 7530
Flu virus, conceptual computer artwork

Hepatitis B virus particle, artwork C016 / 9126
Hepatitis B virus (HBV) particle, computer artwork. Each particle consists of an outer lipid envelope (green) that surrounds a protein nucleopcapsid (purple)

Yellow fever virus particles, TEM C016 / 9469
Yellow fever virus particles. Transmission electron micrograph (TEM) of yellow fever virus particles (virions, green). Yellow fever is endemic in tropical Africa and South America

SARS virus particles, TEM C016 / 9445
SARS virus particles. Coloured transmission electron micrograph (TEM) of a section through a tissue sample infected with numerous SARS coronavirus particles (virions, dark, round)

Polio virus particles, TEM C016 / 9436
Poliovirus particles. Coloured transmission electron micrograph (TEM) of poliovirus particles (round). Poliovirus infects children causing the disease poliomyelitis, or infantile paralysis

Bacteriophage P22, artwork C016 / 9333
Bacteriophage P22. Computer artwork of an enterobacteria phage P22 particle. A bacteriophage, or phage, is a virus that infects bacteria. Enterobacteria P22 infects Salmonella typhimurium bacteria

Rift Valley fever virus particle, artwork C016 / 9160
Rift Valley fever virus particle, computer artwork. This virus particle consists of an RNA (ribonucleic acid) genome enclosed in a protein capsid (yellow)

Bacteriophage T4, artwork C016 / 8969
Bacteriophage T4. Computer artwork of an enterobacteria phage T4 particle. A bacteriophage, or phage, is a virus that infects bacteria. Enterobacteria T4 infects Escherichia coli bacteria

Bacteriophage T4, artwork C016 / 8970
Bacteriophage T4. Computer artwork of an enterobacteria phage T4 particle. A bacteriophage, or phage, is a virus that infects bacteria. Enterobacteria T4 infects Escherichia coli bacteria

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In the vast realm of particle physics, a world filled with intricate equations and mind-boggling experiments, lies the enigmatic entity known as the "particle. " From its discovery to its profound implications, this captivating caption delves into various aspects that define these minuscule building blocks of our universe. At the heart of it all, we find ourselves immersed in the Higgs boson event. A momentous occasion where scientists at ATLAS detector C013/6892 unveiled crucial insights into this elusive particle's existence. Conceptual artwork depicting the Higgs boson serves as a visual representation of its significance within the field. Delving deeper into particle physics equations, we witness an intricate web woven by brilliant minds seeking to unravel nature's secrets. These formulas stand as testaments to human curiosity and determination to understand how particles interact and shape our reality. Simulations take us on a journey through time and space, unveiling mesmerizing visuals portraying Higgs boson production. These virtual realms allow scientists to explore scenarios that would otherwise be impossible or too dangerous in real-life experiments. As we ponder upon these scientific wonders, conceptual artwork brings forth vivid representations of both particle physics experiments and nuclear fission processes. Each stroke captures humanity's tireless pursuit of knowledge while showcasing the beauty hidden within atomic structures. Amidst this exploration lies Prof. Peter Higgs himself - a visionary who laid down theoretical foundations for understanding particles' behavior. His groundbreaking work earned him recognition alongside other luminaries in his field. Beyond traditional research methods lie innovative technologies like nanorobots swarming together with precision reminiscent of nature itself. This convergence between science fiction and reality opens up new frontiers for manipulating particles at unimaginably small scales. From grand detectors like CDF at Fermilab to artistic interpretations highlighting atomic structures, every facet reveals just how intricately intertwined they are with our existence. They hold answers yet undiscovered; they shape matter from stars to the tiniest atoms.