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  • Recoletta Cemetery, Buenos Aires
    ARG_110110_181_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_111_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_076_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_258_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_227_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_188_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_028_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_011_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_117_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_113_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_078_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_073_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_041_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_260_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_159_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_157_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_155_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_143_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_023_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_018_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_015_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_012_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_010_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110111_003_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_205_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_203_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_032_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_050_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_046_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110109_032_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_020_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_017_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_004_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_002_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110111_005_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_219_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110108_120_x.jpg
  • Recoletta Cemetery, Buenos Aires
    ARG_110110_168_x.jpg
  • The town cemetery of Ushuaia, the provincial capital of Tierra del Fuego, with sailboats moored in the distance. Tierra del Fuego, Argentina.
    ARG_110111_079_x_x.jpg
  • Ushuaia, Tierra del Fuego, Argentina
    ARG_110111_079_x.jpg
  • New Age meditation technology. A client at the Altered States Float Center inside a Float Chamber. The Float Chamber contains a 25 cm deep pool of water containing Epsom Salts (magnesium sulphate) and heated to skin temperature. The client may either relax in total silence, have sounds channeled into the chamber through underwater speakers or may view 'self-improvement' videotapes. It is claimed that within a few minutes inside the chamber, the client's left-brain relaxes into deep dream states, allowing meditation and relaxation. The Altered States Float Center is in West Hollywood, California. MODEL RELEASED [1988]
    USA_SCI_NEWAGE_13_xs.jpg
  • The particle physics collaboration group in the detector pit of the L-3 experiment at CERN's Large Electron-Positron Collider (LEP) ring during its construction in [1988] (Sam Ting bottom left in trench coat.) The pit now contains detectors that can measure and identify the various electrons, muons and photons that are emitted following collision events. The main part of the detector is the large magnet, contained in a cubic space of 12 meters each side and weighing 7810 tons. The magnet surrounds the particle detectors; the vertex chamber, the electromagnetic calorimeter, the hadron calorimeter and the muon chamber. The LEP ring was inaugurated on 13 November 1989. The LEP ring was inaugurated on 13 November 1989. [1988].
    SWI_SCI_PHY_10_xs.jpg
  • The particle physics collaboration group in the detector pit of the L-3 experiment at CERN's Large Electron-Positron Collider (LEP) ring during its construction in [1988] (Sam Ting bottom left, in trench coat.) The pit now contains detectors that can measure and identify the various electrons, muons and photons that are emitted following collision events. The main part of the detector is the large magnet, contained in a cubic space of 12 meters each side and weighing 7810 tons. The magnet surrounds the particle detectors; the vertex chamber, the electromagnetic calorimeter, the hadron calorimeter and the muon chamber. The LEP ring was inaugurated on 13 November 1989. [1988]
    SWI_SCI_PHY_11_xs.jpg
  • New Age meditation technology. A client at the Altered States Mind Gym inside the Star Chamber. This is a box lined with mirrors in which the client sits. It is claimed that the effect of seeing hundreds of reflected images of one's self enhances meditation, promoting a loss of self- awareness. Whilst inside the Chamber, the client may listen to tapes of relaxing sounds or to 'self-help' courses. The Altered States Mind Gym is in West Hollywood, California. MODEL RELEASED [1988]
    USA_SCI_NEWAGE_04_xs.jpg
  • Physics: Patrice Lebrun works on the detector for the L-3 experiment at CERN, which uses a Bismuth Germanium Oxide (BGO) Crystal. BGO (formula Bi4 Ge3 O12) is used to detect electrons and photons generated by electron- positron collisions in the LEP Collider ring. When an electron or photon enters the crystal, its energy is converted into light. The light is channeled by the crystal to photodiodes, producing an electronic signal. 11, 000 crystals, totaling 12 tons in weight, are used in the detector, measuring the energy and position of the incoming particles at very high resolution. The LEP and L- 3 detector were inaugurated on 13 November 1989. Geneva, Switzerland..CERN is the European centre for particle physics near Geneva. L3 is one of 4 giant particle detectors at the LEP Collider. LEP collides electrons & positrons accelerated to an energy of 50 GeV in a circular tunnel 100m underground & 27km in circumference. L3 is a cylindrical assembly of many types of apparatus - hadron & electromagnetic calorimeters, drift chambers, & a time projection chamber - which fit together like layers of an onion around the point where the particles collide. L3 is a collaboration of 460 physicists from institutions in 13 countries. MODEL RELEASED [1988]
    SWI_SCI_PHY_07_xs.jpg
  • Physics: Geneva, Switzerland/CERN: L-3 Experiment. Computer simulation of particle physics collision. CERN is the European centre for particle physics near Geneva. L3 is one of 4 giant particle detectors at the LEP Collider. LEP collides electrons & positrons accelerated to an energy of 50 GeV in a circular tunnel 100m underground & 27km in circumference. L3 is a cylindrical assembly of many types of apparatus - hadron & electromagnetic calorimeters, drift chambers, & a time projection chamber - which fit together like layers of an onion around the point where the particles collide. L3 is a collaboration of 460 physicists from institutions in 13 countries.
    SWI_SCI_PHY_12_xs.jpg
  • Physics: Scientist Hans Hofer at CERN..CERN is the European centre for particle physics near Geneva. L3 is one of 4 giant particle detectors at the LEP Collider. LEP collides electrons & positrons accelerated to an energy of 50 GeV in a circular tunnel 100m underground & 27km in circumference. L3 is a cylindrical assembly of many types of apparatus - hadron & electromagnetic calorimeters, drift chambers, & a time projection chamber - which fit together like layers of an onion around the point where the particles collide. L3 is a collaboration of 460 physicists from institutions in 13 countries..Geneva, Switzerland. MODEL RELEASED [1988]
    SWI_SCI_PHY_08_xs.jpg
  • Physics: Assembly of Bismuth Germanium Oxide (BGO) Crystal for the L-3 experiment at CERN. BGO (formula Bi4 Ge3 O12) is used to detect electrons and photons generated by electron- positron collisions in the LEP Collider ring. When an electron or photon enters the crystal, its energy is converted into light. The light is channeled by the crystal to photodiodes, producing an electronic signal. 11, 000 crystals, totaling 12 tons in weight, are used in the detector, measuring the energy and position of the incoming particles at very high resolution. The LEP and L- 3 detector were inaugurated on 13 November 1989. Geneva, Switzerland..CERN is the European centre for particle physics near Geneva. L3 is one of 4 giant particle detectors at the LEP Collider. LEP collides electrons & positrons accelerated to an energy of 50 GeV in a circular tunnel 100m underground & 27km in circumference. L3 is a cylindrical assembly of many types of apparatus - hadron & electromagnetic calorimeters, drift chambers, & a time projection chamber - which fit together like layers of an onion around the point where the particles collide. L3 is a collaboration of 460 physicists from institutions in 13 countries. MODEL RELEASED [1988]
    SWI_SCI_PHY_06_xs.jpg
  • Physics: Geneva, Switzerland/CERN: L-3 Experiment. Russian scientist Yuri Kamishkou seen with the Hadron Calorimeter. CERN is the European centre for particle physics near Geneva. L3 is one of 4 giant particle detectors at the LEP Collider. The L-3 experiment is part of CERN's Large Electron- Positron Collider (LEP), inaugurated on 13 November 1989. LEP collides electrons & positrons accelerated to an energy of 50 GeV in a circular tunnel 100m underground & 27km in circumference. L3 is a cylindrical assembly of many types of apparatus - hadron & electromagnetic calorimeters, drift chambers, & a time projection chamber - which fit together like layers of an onion around the point where the particles collide. L3 is a collaboration of 460 physicists from institutions in 13 countries. MODEL RELEASED [1988]
    SWI_SCI_PHY_04_xs.jpg
  • Physics: Geneva, Switzerland. CERN: L-3 Experiment. A technician (K. Reismann) works inside the L3 detector at CERN, the European centre for particle physics near Geneva. The L-3 experiment is part of CERN's Large Electron- Positron Collider (LEP), inaugurated on 13 November 1989. L3 is one of 4 giant particle detectors at the LEP Collider. LEP collides electrons & positrons accelerated to an energy of 50 GeV in a circular tunnel 100m underground & 27km in circumference. L3 is a cylindrical assembly of many types of apparatus - hadron & electromagnetic calorimeters, drift chambers, & a time projection chamber - which fit together, like layers of an onion around the point where the particles collide. L3 is a collaboration of 460 physicists from institutions in 13 countries. Aachen Group. MODEL RELEASED [1988].
    SWI_SCI_PHY_05_xs.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_035_x.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_025_x.jpg
  • Physics: Lawrence Livermore National Lab in Livermore, California. Nova Laser. The Nova laser is the worlds most powerful, and is being used to initiate nuclear fusion reactions. Nuclear fusion is the joining of the nuclei of deuterium and tritium (heavy isotopes of hydrogen). The reaction produces vast amounts of energy, but requires an initial temperature of 100 million Celsius. To achieve this, a pinhead-sized pellet of fuel is placed in the chamber. The Nova laser is focused onto the pellet before a full- power burst is fired. This lasts only 50 picoseconds (trillionths of a second), but gives sufficient energy for fusion to occur. [1989]
    USA_SCI_PHY_16_xs.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_035.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_032.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_033.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_031.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_030.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_026.jpg
  • Wine and cheese with Dario Sattui, Yana and Faith before  the Napa Valley Festival del Sole, where Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_024.jpg
  • Wine and cheese with Dario Sattui, Yana and Faith before  the Napa Valley Festival del Sole, where Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_023.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_032_x.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_031_x.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_027_x.jpg
  • Penderecki String Quartet (from Poland) taking a bow after playing Leos Janacek's String Quartet No. 1, in the Napa Valley Opera House, Napa, California. The performance is one of many during the season of the Chamber Music in the Napa Valley organization (www.chambermujsicnaps.org). The 500-seat theater was built in 1880 and restored and reopened in 2003.
    USA_060126_8_rwx.jpg
  • Physics: Raychem Corporation's CEO Paul Cook in electron accelerator radiation chamber (plastic pipe irradiation) MODEL RELEASED [1987]
    USA_SCI_PHY_13_xs.jpg
  • Physics: A blowtorch is applied to a sample of aerogel to demonstrate its insulation properties. Aerogel is a new material, which has very high thermal insulation properties and extremely low mass. It is made by adding alcohol to a conventional silica gel to remove water. The gel is then placed in a pressure chamber, and the alcohol removed under super fluid conditions. This prevents the gel from collapsing. The resulting block of silica fibers contains about 90% air, so is very lightweight. Aerogel is being studied as an insulating material and as a holding medium for nuclear fusion fuel. Photographed at the Lawrence Livermore National Laboratory, USA. [1991]
    USA_SCI_PHY_32_xs.jpg
  • Raychem's Paul Cook outside Electron Beam accelerator radiation chamber (used for plastic pipe irradiation). Model Released.
    USA_SVAL_56_xs.jpg
  • USA_SCI_BIOSPH_78_xs <br />
The Biosphere 2 Project’s twenty-seven foot test module seen with star trails at night in a long exposure. The building to the right is an atmospheric chamber used to equalize the air pressure in the module. The Biosphere was a privately funded experiment, designed to investigate the way in which humans interact with a small self-sufficient ecological environment, and to look at the possibility of future planetary colonization. The $30 million Biosphere covers 2.5 acres near Tucson Arizona, and is entirely self-contained. The eight ‘Biospherian’s’ shared their air- and water- tight world with 3,800 species of plant and animal life over their two-year stay in the building, producing all of their own food and supporting the whole environment in five 'biomes'; agricultural, rain forest, savannah, ocean and marsh.  1986
    USA_SCI_BIOSPH_78_xs.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_034.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_027.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_025.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_034_x.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_033_x.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_030_x.jpg
  • At the Napa Valley Festival del Sole, Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_026_x.jpg
  • Wine and cheese with Dario Sattui, Yana and Faith before  the Napa Valley Festival del Sole, where Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_024_x.jpg
  • For five days in a row, Kuwait firefighters attempted without success to kill an oil well fire Many of the wells are 10,000 feet deep and produce huge volumes of oil and gas under tremendous pressure, which makes capping them very difficult and dangerous..They used a huge bell-shaped steel chamber to move the heat of the fire further away from the ground so that it would be easier to extinguish with high-pressure water hoses. They ran out of water, however, before they could finish. The Rumaila field is one of Iraq's biggest oil fields with five billion barrels in reserve. Many of the wells are 10,000 feet deep and produce huge volumes of oil and gas under tremendous pressure, which makes capping them very difficult and dangerous. Rumaila is also spelled Rumeilah.
    IRQ_030401_163_x.jpg
  • Wine and cheese with Dario Sattui, Yana and Faith before  the Napa Valley Festival del Sole, where Joyce Yang joined violinist Sarah Chang, cellist Nina Kotova, violist Katie Kadarauch and soprano Nino Machaidze in a chamber music program that included the Brahms Piano Quartet in C Minor, at Castello di Amorosa, Napa Valley winery castle built by Dario Sattui.
    USA_110721_023_x.jpg
  • Physics: Lawrence Livermore National Lab in Livermore, California. Nova Laser. The Nova laser is the worlds most powerful, and is being used to initiate nuclear fusion reactions. Nuclear fusion is the joining of the nuclei of deuterium and tritium (heavy isotopes of hydrogen). The reaction produces vast amounts of energy, but requires an initial temperature of 100 million Celsius. To achieve this, a pinhead-sized pellet of fuel is placed in the chamber. The Nova laser is focused onto the pellet before a full- power burst is fired. This lasts only 50 picoseconds (trillionths of a second), but gives sufficient energy for fusion to occur. [1989]
    USA_SCI_PHY_17_xs.jpg
  • Replete honeypot ants hang immobile from the roof of their underground chamber, with loads of nectar stored in their swollen abdominal pouches. North of Alice Springs, Central Australia. (Man Eating Bugs page 28. See also Man Eating Bugs page 11).
    AUS_meb_23_cxxs.jpg
  • Safety tour at underground storage of radioactive wastes. This is one of the chambers of the Waste Isolation Pilot Project (WIPP), 700 meters below ground. WIPP is a research project to determine the suitability of the local salt rocks as a storage site for highly- radioactive transuranic waste from nuclear power stations. Such waste materials may have radioactive half-lives of thousands of years, and so must be isolated in a geologically stable environment. On the left is an experiment testing the design of containers carrying vitrified waste. The mine is located near Carlsbad, New Mexico, USA. (1998)
    USA_SCI_NUKE_14_xs.jpg
  • Underground storage of radioactive wastes. Measuring ceiling-floor movement. This is one of the chambers of the Waste Isolation Pilot Project (WIPP), 700 meters below ground. WIPP is a research project to determine the suitability of the local salt rocks as a storage site for highly radioactive transuranic waste from nuclear power stations. Such waste materials may have radioactive half-lives of thousands of years, and so must be isolated in a geologically stable environment. On the left is an experiment testing the design of containers carrying vitrified waste. The mine is located near Carlsbad, New Mexico, USA. (1998)
    USA_SCI_NUKE_13_xs.jpg
  • Physics: Scientist checking the sense wires of the muon detector inside the clean room of CERN's L-3 experiment during construction in [1988] The detector consists of 250, 000 beryllium and tungsten wires mounted in 80 chambers. A pair of positive and negative muons may be produced by the collision of an electron and a positron, the wires detect the muons and measure their momentum. The L-3 experiment is part of CERN's Large Electron- Positron Collider (LEP), inaugurated on 13 November 1989. [1988].
    SWI_SCI_PHY_09_xs.jpg

Peter Menzel Photography

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