Harvey Fletcher

Harvey Fletcher
Born (1884-09-11)September 11, 1884
Provo, Utah, USA
Died July 23, 1981(1981-07-23) (aged 96)
Provo, Utah, USA
Nationality United States
Fields Physics
Institutions Western Electric
Bell Laboratories
Columbia University
Alma mater Brigham Young University
University of Chicago
Doctoral advisor Robert A. Millikan
Known for Invention of the hearing aid
The father of stereophonic sound
Notable awards Presidential Citation
ASA Gold Medal (1957)
Louis E. Levy Medal
IEEE Founders Medal (1967)
Grammy Award (2016)

Harvey Fletcher (September 11, 1884 – July 23, 1981) was an American physicist.[1] Known as the "father of stereophonic sound", he is credited with the invention of the 2-A audiometer[2] and an early electronic hearing aid.[3][4] He was an investigator into the nature of speech and hearing, and made contributions in acoustics, electrical engineering, speech, medicine, music, atomic physics, sound pictures, and education.

Early years

Fletcher was born in Provo, Utah. He graduated from Brigham Young High School in 1904. He enrolled at Brigham Young University (BYU), graduating in 1907 with a bachelor's degree. He married Lorena Chipman. They were the parents of seven children.[5] L. Tom Perry Fletcher was the father of James C. Fletcher, former president of the University of Utah [6] and of Harvey J. Fletcher, a Brigham Young University math professor.

Graduate work

In 1911 Fletcher was the first student ever to earn a Ph.D. summa cum laude from the University of Chicago.[5] His dissertation research was on methods to determine the charge of an electron. This included the oil drop experiment commonly attributed to his advisor and collaborator, Robert Andrews Millikan. Millikan took sole credit, in return for Fletcher claiming full authorship on a related result for his dissertation. Fletcher's contributions were detail-oriented but still contributed to the successful experiment, in which he incorporated, among other things, experience with projection lanterns.[7] Millikan went on to win the 1923 Nobel Prize for Physics, in part for this work, and Fletcher kept the agreement a secret until his death.[8]

Career

After completing his doctorate, he returned to Brigham Young University, where he became the head of the physics department. He served in this capacity from 1911 until 1916. Fletcher left BYU to work at Western Electric, establishing himself as a researcher. He joined the Bell Telephone Laboratories' Engineering Staff Research Department where he found great interest in the physics of sound (acoustical science).[5] He worked there from 1933-1949, when he became a professor of electrical engineering at Columbia University from 1949 to 1952. He returned to Brigham Young University in 1952 to be the Director of Research. He served in that role as well as being the first dean of the new College Physics and Engineering Sciences until 1958.[9]

Notable contributions

Fletcher's contributions to the theory of speech perception are among his best-known work. He showed that speech features are usually spread over a wide frequency range, and developed the articulation index to approximately quantify the quality of a speech channel.[10] He also developed the concepts of equal-loudness contours (commonly known as Fletcher–Munson curves), loudness scaling and summation, and the critical band.[11] At Bell Labs, he oversaw research in electrical sound recording, including the first successful stereophonic recordings, the first live stereo sound transmission, and the production the first vinyl recording. All of this was done with the help of the conductor of the Philadelphia Orchestra, Leopold Stokowski between 1931–32.[12][13] Some of his other accomplishments include the production of the first functional hearing aid, the 2-A audiometer, and the artificial larynx.[5]

Much of his research is considered to be authoritative, and his books, Speech and Hearing and Speech and Hearing in Communication, are notable treatises on the subject.

Honors

Fletcher was elected an honorary fellow of the Acoustical Society of America in 1949, the second person to receive this honor after Thomas Edison, 20 years earlier. He was president of the American Society for Hard of Hearing, an honorary member of the American Otological Society and an honorary member of the Audio Engineering Society. In 1924 he was awarded the Louis E. Levy Medal by the Franklin Institute for physical measurements of audition. He was president of the American Physical Society. He was the first president of Acoustical Society of America (1929–31).[14][15] In 1937 he was elected vice-president of the American Association for the Advancement of Science. He was a member of the National Academy of Sciences. He was also a member of the National Hearing Division Committee of Medical Sciences. He was given the Progress Medal Award by the American Academy of Motion Pictures, in Hollywood. For eight years he acted as National Councilor for the Ohio State University Research Foundation.

In 2010, Fletcher was honored by BYU as the Founding Dean of the BYU College of Engineering [16] (now the Ira A. Fulton College of Engineering and Technology).

On April 23, 2016, Fletcher was awarded a posthumous technical Grammy Award for his research and inventions related to stereophonic sound.[5][17]

He died on July 23, 1981, after a stroke.

References

  1. Gardner, Mark B. (October 1981). "Obituary: Harvey Fletcher". Physics Today. 34 (10): 116. Bibcode:1981PhT....34j.116G. doi:10.1063/1.2914315.
  2. "Harvey Fletcher Biography". Engineering and Technology History Wiki. 28 December 2015. Retrieved 19 January 2016.
  3. William M. Hartmann (January 9, 1997). Signals, Sound, and Sensation. Springer. pp. 72–. ISBN 978-1-56396-283-7.
  4. Fletcher, Stephen H. (1992). "HARVEY FLETCHER 1884-1981" (PDF). NAS Online. National Academy of Sciences. Retrieved 20 November 2015.
  5. 1 2 3 4 5 Stanford, Jeremy (Fall 2016), "Harvey Fletcher and the Reinvention of Sound", Frontiers, Provo, Utah, pp. 15–19
  6. http://www.et.byu.edu/~tom/family/Harvey_Fletcher/harvey_fletcher.html retrieved 2014.12.20
  7. David Goodstein (January–February 2001). "In the Case of Robert Andrews Millikan" (PDF). American Scientist: 54–60.
  8. Harvey Fletcher (June 1982). "My Work with Millikan on the Oil-drop Experiment" (PDF). Physics Today. 35: 43. Bibcode:1982PhT....35f..43F. doi:10.1063/1.2915126.
  9. L. Tom Perry Special Collections, BYU Library. http://files.lib.byu.edu/ead/XML/MSS1233.xml Retrieved 2014.12.20
  10. Jont B. Allen (2005). Articulation And Intelligibility. Morgan & Claypool. ISBN 1-59829-008-8.
  11. William Morris Hartmann (1997). Signals, Sound, and Sensation. Springer. ISBN 1-56396-283-7.
  12. Huffman, Larry. "Stokowski, Harvey Fletcher, and the Bell Labs Experimental Recordings". www.stokowski.org. Retrieved February 17, 2014.
  13. William Ander Smith. The Mystery of Leopold Stokowski. Fairleigh Dickinson University Press, 1990, p. 175.
  14. http://acousticalsociety.org/article/harvey-fletcher-byu%E2%80%99s-first-physics-grad-earns-posthumous-grammy-award
  15. http://acousticalsociety.org/membership/records/officers_and_managers
  16. Winters, Charlene (September 23, 2010). "Harvey Fletcher is Honored Founder for BYU Homecoming 2010". Brigham Young University. Retrieved February 17, 2014.
  17. "Special Merit Awards: Class Of 2016". www.grammy.com. Retrieved 25 April 2016.

External links

This article is issued from Wikipedia - version of the 11/14/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.