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  • Port of Ushuaia, southernmost city in the world. Tierra del Fuego, Argentina.
    ARG_110122_018_x.jpg
  • A Segway motorized transport rider passes between the Frank Gehry-designed BP Bridge and the trellis of the Jay Pritzker Pavilion, also designed by Gehry in Millennium Park, Chicago, Il. USA. And downtown cityscape.
    USA_061103_024_rwx.jpg
  • View through the trellis structure in front of the Frank Gehry-designed Jay Pritzker Pavilion in Millennium Park, Chicago, Il. USA. And downtown cityscape.
    USA_061103_013_rwx.jpg
  • Port of Ushuaia, southernmost city in the world. Tierra del Fuego, Argentina. The World, a luxury floating condo ship.
    ARG_110122_154_x.jpg
  • Port of Ushuaia, southernmost city in the world. Tierra del Fuego, Argentina. Docking of The Scandinavian-built ice-breaker Akademik Sergey Vavilov, originally built for the Russian Academy of Science and still used occasionally by scientists, is now predominantly used for adventure touring in both the Arctic and the Antarctic. The ship is currently operated by a Russian crew, and staffed with employees of the adventure touring company Quark Expeditions, and carries around 100 passengers at a time.
    ARG_110122_150_x.jpg
  • Bay to Breakers annual race. Runners climb the Hayes St. hill. San Francisco, California.
    USA_SF_08_xs.jpg
  • California. Aqueduct. Pumping station at Wind gap. Note man standing on first concrete piers.
    USA_CA_19_xs.jpg
  • California. Aqueduct. Pumping station at Wind gap. Note man standing on first concrete piers.
    USA_CA_18_xs.jpg
  • Irrigation: pumping station at The Wind Gap Pumping Station lifts the California aqueduct water over the Tehachapi Mountains on its way toward Los Angeles. USA.
    USA_AG_IRR_09_xs.jpg
  • Port of Ushuaia, southernmost city in the world. Tierra del Fuego, Argentina. Docking of The Scandinavian-built ice-breaker Akademik Sergey Vavilov, originally built for the Russian Academy of Science and still used occasionally by scientists, is now predominantly used for adventure touring in both the Arctic and the Antarctic. The ship is currently operated by a Russian crew, and staffed with employees of the adventure touring company Quark Expeditions, and carries around 100 passengers at a time.
    ARG_110122_152_x.jpg
  • The Pyramid of Khafre, one of the massive ancient Egyptian Pyramids of Giza, seen from the city Giza, Egypt.
    EGY_030526_002_x.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC). Electronics Trailer. J. Chapman checks myriad connections..Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. [1988]
    USA_SCI_PHY_19_xs.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC) Helen Quinn, theoretician. Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. MODEL RELEASED [1986].
    USA_SCI_PHY_05_xs.jpg
  • Sometimes described as the grand old man of Japanese robotics, Hirochika Inoue of the University of Tokyo is one of the directors of the nation's massive effort to develop a humanoid robot. Japan. From the book Robo sapiens: Evolution of a New Species, page 22.
    Japan_JAP_rs_259_qxxs.jpg
  • Orange County, California. Massive earth grading for homes and roads. Near Mission Viejo, California.
    USA_SCAL_06_xs.jpg
  • San Joaquin corridor toll road grading near Laguna beach in Orange County, California. Aerial shows massive earth grading for roads and homes; leveling hills to make plateaus and benches for subdivisions.
    USA_SCAL_03_xs.jpg
  • A giant stone face in the Bayon Temple in Angkor, Cambodia. A temple-mountain complex containing 200 gigantic faces. The Banyon is a massive temple complex built by Jayavarman VII between 1181 and 1220. It features 3,936 feet of superb bas-relief carving and mysterious Buddha faces carved on the towers of the third level. The temples at Angkor are spread out over some 40 miles around the village of Siem Reap, about 192 miles from the Cambodian capital, Phnom Penh. They were built between the eighth and 13th centuries and range from single towers made of bricks to vast stone temple complexes. .
    CAM_10_xs.jpg
  • The Pyramid of Khafre, one of the massive ancient Egyptian Pyramids of Giza, seen from the city Giza, Egypt.
    EGY_030526_001_x.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC), Menlo Park, California. Control Room [1988]. Instrumentation displays inside the control room of the Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989.
    USA_SCI_PHY_29_xs.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC), Menlo Park, California. Control Room..Instrumentation displays inside the control room of the Stanford Linear Collider (SLC) experiment, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. [1988]
    USA_SCI_PHY_22_xs.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC). Rafe Schindler and Iris Abt with detector insert. Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. [1988]
    USA_SCI_PHY_18_xs.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC). Large Detector construction: sorting through the tens of thousands of fittings. Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. [1988]
    USA_SCI_PHY_15_xs.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC) Martin Perl, Physicist at SLAC..Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. MODEL RELEASED [1988]
    USA_SCI_PHY_10_xs.jpg
  • Proton decay experiment to determine the ultimate stability of matter..Physics: Proton Decay. Ohio, Morton Salt Mine (1985). Proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio.which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles
    USA_SCI_PHY_36_xs.jpg
  • Proton decay experiment to determine the ultimate stability of matter..Physics: Proton Decay. Ohio, Morton Salt Mine (1985). Proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio.which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles.
    USA_SCI_PHY_35_xs.jpg
  • Physics: Proton Decay. Ohio, Morton Salt Mine 1985. Proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio, which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles. MODEL RELEASED
    USA_SCI_PHY_28_xs.jpg
  • Physics: Proton Decay control room. Cleveland, Ohio, Morton Salt Mine proton decay detector located 600 meters underground in the Morton salt mine near Cleveland, Ohio, which consists of a massive tank containing 21 cubic meters of ultra pure water, its walls lined with photomultiplier tubes, which detect faint flashes of Cerenkov light emitted by the passage of charged particles. [1985]
    USA_SCI_PHY_24_xs.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC). Main complex. (1986) 3. 2 km (2 mile) long linear accelerator at the Stanford Linear Accel- erator Center (SLAC), California. The end at which the electrons start their journey is in the distance; the experimental areas where the accelerated electrons are smashed into targets, or used for further acceleration in electron-positron Colliders, is in the group of buildings seen here. The giant red- roofed building in the experimental area is End Station A, where the first evidence of quarks was discovered in 1968-72. .Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989.
    USA_SCI_PHY_37_xs.jpg
  • Concrete blocks placed along the shoreline to prevent massive soil erosion near Nuclear Power Plant Number 4 in Fulong, Taiwan.
    TAI_081227_558_xw.jpg
  • Physics: Stanford Linear Accelerator Center (SLAC), Menlo Park, California. Large Detector Control Room. Instrumentation displays inside the control room of the Stanford Linear Collider (SLC) experiment, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. [1988]
    USA_SCI_PHY_26_xs.jpg
  • Physics: Pat Burchat, with a computer simulation reflected in her glasses at the Stanford Linear Accelerator Center (SLAC) Large Detector. Computer Simulated Event. Stanford Linear Collider (SLC) experiment, Menlo Park, California. With a length of 3km, the Stanford Linear Accelerator is the largest of its kind in the world. The accelerator is used to produce streams of electrons and positrons, which collide at a combined energy of 100 GeV (Giga electron Volts). This massive energy is sufficient to produce Z-zero particles in the collision. The Z-zero is one of the mediators of the weak nuclear force, the force behind radioactive decay, and was first discovered at CERN, Geneva, in 1983. The first Z-zero at SLC was produced on 11 April 1989. MODEL RELEASED [1988]
    USA_SCI_PHY_09_xs.jpg

Peter Menzel Photography

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