This online exhibit explores the discovery of laser technology. It combindes audio clips with archival photos to provide a context for understanding the impact of lasers. The exhibit explores more than the technology. It includes history of the competition to create the original laser as well as the social impact of this innovation.
Links are provided to information and tutorials that introduce the physics of lasers to audiences with little or no background in the subject.
9-12: 1A/H2. From time to time, major shifts occur in the scientific view of how things work. More often, however, the changes that take place in the body of scientific knowledge are small modifications of prior knowledge. Continuity and change are persistent features of science.
1B. Scientific Inquiry
9-12: 1B/H7. New ideas in science are limited by the context in which they are conceived; are often rejected by the scientific establishment; sometimes spring from unexpected findings; and usually grow slowly, through contributions from many investigators.
1C. The Scientific Enterprise
6-8: 1C/M7. Accurate record-keeping, openness, and replication are essential for maintaining an investigator's credibility with other scientists and society.
3. The Nature of Technology
3A. Technology and Science
9-12: 3A/H1. Technological problems and advances often create a demand for new scientific knowledge, and new technologies make it possible for scientists to extend their research in new ways or to undertake entirely new lines of research. The very availability of new technology itself often sparks scientific advances.
9-12: 3A/H2. Mathematics, creativity, logic, and originality are all needed to improve technology.
9-12: 3A/H3a. Technology usually affects society more directly than science does because technology solves practical problems and serves human needs (and also creates new problems and needs).
4. The Physical Setting
4E. Energy Transformations
9-12: 4E/H2. In any system of atoms or molecules, the statistical odds are that the atoms or molecules will end up with less order than they originally had and that the thermal energy will be spread out more evenly. The amount of order in a system may stay the same or increase, but only if the surrounding environment becomes even less ordered. The total amount of order in the universe always tends to decrease.
9-12: 4E/H5. When energy of an isolated atom or molecule changes, it does so in a definite jump from one value to another, with no possible values in between. The change in energy occurs when light is absorbed or emitted, so the light also has distinct energy values. The light emitted or absorbed by separate atoms or molecules (as in a gas) can be used to identify what the substance is.
<a href="http://www.compadre.org/psrc/items/detail.cfm?ID=11683">American Institute of Physics. Center for History of Physics: Bright Idea - The First Lasers. College Park: American Institute of Physics, 2010.</a>
Center for History of Physics: Bright Idea - The First Lasers. (2010). Retrieved February 27, 2017, from American Institute of Physics: https://www.aip.org/history/exhibits/laser/sections/raydevices.html
American Institute of Physics. Center for History of Physics: Bright Idea - The First Lasers. College Park: American Institute of Physics, 2010. https://www.aip.org/history/exhibits/laser/sections/raydevices.html (accessed 27 February 2017).
%T Center for History of Physics: Bright Idea - The First Lasers %D 2010 %I American Institute of Physics %C College Park %U https://www.aip.org/history/exhibits/laser/sections/raydevices.html %O text/html
%0 Electronic Source %D 2010 %T Center for History of Physics: Bright Idea - The First Lasers %I American Institute of Physics %V 2017 %N 27 February 2017 %9 text/html %U https://www.aip.org/history/exhibits/laser/sections/raydevices.html
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