Energy & Power

The Museum's collections on energy and power illuminate the role of fire, steam, wind, water, electricity, and the atom in the nation's history. The artifacts include wood-burning stoves, water turbines, and windmills, as well as steam, gas, and diesel engines. Oil-exploration and coal-mining equipment form part of these collections, along with a computer that controlled a power plant and even bubble chambers—a tool of physicists to study protons, electrons, and other charged particles.

A special strength of the collections lies in objects related to the history of electrical power, including generators, batteries, cables, transformers, and early photovoltaic cells. A group of Thomas Edison's earliest light bulbs are a precious treasure. Hundreds of other objects represent the innumerable uses of electricity, from streetlights and railway signals to microwave ovens and satellite equipment.

A major breakthrough marks only the beginning of a scientist's work. In November 1960 Peter Sorokin and Mirek Stevenson, at IBM's Watson Research Center, successfully demonstrated a second type of laser.
Description
A major breakthrough marks only the beginning of a scientist's work. In November 1960 Peter Sorokin and Mirek Stevenson, at IBM's Watson Research Center, successfully demonstrated a second type of laser. They energized a crystal of calcium-fluorine treated with a variety of uranium (written in chemical symbols as CaF2:U3+) to generate a pulse of laser light.
Sorokin and other colleagues experimented with many elements as they learned more about both pulsed and continuous-wave lasers. This crystal, from mid-1962, was the first one made of strontium, fluorine and samarium (SrF2:Sm2+) to successfully operate. Laser research was a very competitive field. Despite their efforts at IBM, Sorokin told museum staff that a team from Bell Labs, "made the first CW [continuous wave] solid-state laser using an ordinary crystal of CaF2:U3+. After that achievement we abandoned our CW efforts and went on to other topics." Those other topics included significant early work on generating laser beams using liquid dyes.
Location
Currently not on view
date made
1962
ID Number
1985.0268.06
catalog number
1985.0268.06
accession number
1985.0268
This is a ruby crystal from Theodore Maiman's experiments of May 1960, and may be the first crystal to generate laser light. The synthetic crystal was mounted in a small holder that also contained a spiral flashlamp of the type photographers used.
Description
This is a ruby crystal from Theodore Maiman's experiments of May 1960, and may be the first crystal to generate laser light. The synthetic crystal was mounted in a small holder that also contained a spiral flashlamp of the type photographers used. When the lamp flashed, the light pulse stimulated the atoms within the crystal. The atoms released that energy in the form of a laser light pulse.
Maiman earned a Ph.D. in physics from Stanford in 1955 and went to work at Hughes Research Laboratories the following year where he worked on masers. After attending a conference in September 1959, Maiman ran experiments investigating the possibility that a ruby crystal might be capable of emitting laser light. The experiments proved successful when, on 16 May 1960, he and assistant Irnee D’Haenes demonstrated the first operating laser. Rather than producing a continuous beam, their ruby laser operated in pulses. Their success caught the scientific community by surprise and was a pivotal moment in the history of lasers.
This crystal was one of several in the laboratory at the time of the experiments. No one knows with certainly which crystal actually generated the first laser light, though when the crystal was donated to the Smithsonian in 1967, officials at Hughes reported that this crystal was indeed the first.
Location
Currently not on view
Date made
1960
associated date
1960-07
associated institution
Hughes Research Laboratories
maker
Maiman, Theodore H.
Hughes Aircraft Company
ID Number
EM.330048
catalog number
330048
accession number
288813

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