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Table of Contents
Charles Townes was an American physicist who worked on the development of high-resolution spectroscopy of gasses in the electromagnetic spectrum at the microwave region. He worked on the theory and application of maser and other quantum electronics that associates maser and laser devices. Townes also won the Nobel Prize in Physics in 1964 for his development of a maser.
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Key Facts & Information
BIOGRAPHY
- Charles Hard Townes was born in Greenville, South Carolina on July 28, 1915. Henry Townes, his father, was a lawyer and a newspaper editor. His mother, Ellen Hard was a college graduate. He lived on a 20-acre farm with his two brothers and three sisters.
- At an early age, Townes already showed a great interest in the biological and natural sciences. He was considered a gifted scholar and was accelerated to the eighth grade.
- At the age of 26, Townes attended Furman University in his hometown and became interested in studying physics. He achieved two bachelor degrees – a Bachelor of Science in Physics and a Bachelor of Arts in Modern Languages.
- Townes attended Duke University for his Master’s degree in Physics in 1937. Townes wrote about van der Graaf generators for his Master’s thesis and continued studying French, Italian, and Russian languages.
- At the California Institute of Technology, Townes completed his education where he developed research about the spin of the carbon-13 nucleus and achieved a PhD in Physics in 1939.
EARLY RESEARCHES AND ACHIEVEMENTS
- Townes spent his next eight years at the Bell Telephone Laboratories and worked as a researcher. Townes also took classes at the Juilliard School of Music while living in New York City.
- During World War II, Townes developed extensive work on radar bombing and systems designs. He also worked on radio astronomy. Townes made crucial contributions in the development of high-resolution spectroscopy of gasses in the microwave region of the electromagnetic spectrum after the war.
- Townes also continued his work when he joined the Columbia University faculty in 1948.
THE BREAKTHROUGH OF MASER
- The arrival of radar during World War II was the key to the extensive use of electronic devices in scientific research. Townes focused on the use of microwaves (low-frequency radiation) in investigating the structure of the matter.
- In order to carry out this sort of investigation effectively, Townes used oscillators (a device that generates oscillatory electric currents) to be able to produce very short wavelength radiation.
- However, during the late 1940s, it was proven that it would never be possible to build an ordinary oscillator that can generate radiations of a wavelength that is less than one millimeter.
- Townes used the phenomenon of stimulated emission during his first attempt in producing an oscillator that would fit his purpose. The said phenomenon is one through which atoms under the influences of an applied electromagnetic field emit photons.
- In 1951, Townes had the breakthrough idea for his maser and indicated the plans on the back of an envelope.
- Townes learned that to be able to amplify very short wavelength radiation, action in the molecular scale would be required. He formulated a way that an ensemble of molecules would be able to produce a self-excited oscillator that could amplify signals.
- The certain molecules should be in their active state to contain a large amount of energy. The electromagnetic waves stimulate the molecules to release the extra energy at the same frequency and phase as the stimulating electromagnetic energy.
THE MASER
- A maser is defined as microwave amplification by stimulated emission of radiation. Townes built the first one in 1954 with H.J. Zeiger and James P. Gordon at the Columbia University.
- The maser utilizes ammonia gas. It is collimated (paralleled) by a small hole into a vacuum that acts like a beam of molecules. The molecules are in two energy states, and will be reflected in different directions depending on their energy by an applied electromagnetic field.
- If the molecules have higher energy, they get deflected into a chamber known as a resonant cavity (is a type of resonator that confines the electromagnetic field). The amplification occurs if the number of molecules that gets deflected into the cavity is high enough.
- Townes identified the conditions that are necessary for the operation of masers in different wavelength regions. This includes infrared, visible, and ultraviolet portions of the spectrum.
- The development of Townes’ maser proved to be crucial in modern experimental research. Maser amplifiers utilize a very high signal-to-noise ratio. In the uncertainty principle, the maser amplifiers come extremely close to amplifying a single photon because they approach its maximum accuracy.
- In experiments performed on a quantum level, Townes’ masers are extremely useful. They are also useful in long-distance radar and microwave communications and the reception and detection of weaker signals in radio astronomy.
- Townes achieved the Nobel Prize in Physics in 1964 for his crucial work in quantum electronics that led him to develop the maser.
MASERS TO LASERS
- In 1957, while Townes was working on the maser, he and Arthur L. Schawlow aimed to formulate ways to produce extremely concentrated beams of light. During that time, lasers were possible for pure scientific uses.
- Both of the physicists were granted the patents in 1960 on the laser (light amplification by stimulated emission of radiation) technology. However, they never profited from them personally.
Charles Townes Worksheets
This is a fantastic bundle which includes everything you need to know about the Charles Townes across 23 in-depth pages. These are ready-to-use Charles Townes worksheets that are perfect for teaching students about Charles Townes who was an American physicist who worked on the development of high-resolution spectroscopy of gasses in the electromagnetic spectrum at the microwave region. He worked on the theory and application of maser and other quantum electronics that associates maser and laser devices. Townes also won the Nobel Prize in Physics in 1964 for his development of a maser.
Complete List Of Included Worksheets
- Charles Townes Facts
- Townes Profiling
- The Filling of Townes
- Masers Jumbling
- Townes’ Timeline
- Masers and Lasers
- The Questions of Charles
- Townes’ Analysis
- How Does it Happened?
- Townes: Fact or Bluff
- Quotes of Townes
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