John Fredrich Asmus (born 1937) is a research physicist who has focused his work on the use of scientific techniques in art conservation. As of 2020, he taught at the Institute for Pure and Applied Physical Science at the University of California, San Diego, where he began working in 1974.[1]

John F. Asmus
Born1937 (age 86–87)
NationalityAmerican
Alma materCalifornia Institute of Technology (Ph.D.)
Known forPioneering use of lasers in art conservation
Scientific career
InstitutionsUniversity of California, San Diego

Asmus is widely published, with over 125 articles published in professional journals and 25 patents to his name. Having received his PhD from the California Institute of Technology, he initially applied his knowledge of high-energy excimer lasers in private sector organizations such as General Atomics, where he contributed to the ORION nuclear spaceship program. Asmus then pioneered the use of holography, lasers, ultrasonic imaging, digital image processing, and nuclear magnetic resonance in art conservation, working to preserve or investigate works as diverse as the statues in Venice, frescoes of the California State Capitol, petroglyphs in Utah's Arches National Park, portraits by Rembrandt, the Terracotta Army in Xi'an, China, and the Mona Lisa.

Pioneering use of lasers in art conservation

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In 1971, Asmus met oceanographer Walter Munk, who asked Asmus if he could make holograms of statues and art objects in Venice in order to preserve them.[2] Through this process, Asmus discerned that he could use lasers to remove detritus encrusting the statues without harming the underlying works.[2] In 1972, Asmus "first applied laser cleaning to marble sculptures", and therefore "is considered to be the grandfather of laser art conservation".[3] That same year, Asmus worked with holography pioneer Ralph Wuerker, with whom he "proved the feasibility of creating full-size holograms of statuary, permitting three-dimensional reproductions of the world's sculptural masterpieces".[4] Asmus continued working with Munk to create a three-dimensional record of the city of Venice in 1973, while continuing to investigate means of using lasers to clean statuary.[5]

In 1975, Asmus developed "supersensitive sonar detectors" to assist art historian Carlo Pedretti and other scientists searching for The Battle of Anghiari, a lost painting by Leonardo da Vinci, at times referred to as "The Lost Leonardo", believed to be hidden beneath one of the later frescoes in the Salone dei Cinquecento (Hall of the Five Hundred) in the Palazzo Vecchio in Florence.[6] In 1978, Asmus used laser technology to uncover artwork in the California State Capitol building that had been repeatedly painted over since a 1939 remodeling,[7] ultimately removing nine layers of paint to restore the original artwork.[2] In 1980, after vandals attempted to use an abrasive kitchen cleanser to deface ancient petroglyphs in Arches National Park in Utah, Asmus was called in to use his technology to repair the damage, and "succeeded in removing most of the cleanser".[2]

His application of complex scientific devices to art enabled Asmus to work on many of the world's most famous cultural objects, including the Mona Lisa.[8][9] In the 1980s, Asmus "turned a personal fascination with the Mona Lisa into a five-year project to recapture the painting's original vitality".[10] Pedretti had proposed that Leonardo had originally painted the Mona Lisa bare-breasted, and Asmus believed that he could determine whether this theory was correct, "using computer image enhancement techniques developed for interpreting satellite photographs".[2] Asmus used computer image processing to examine images of the painting to determine how the colors would appear if they were not distorted by the yellowing of the aged varnish. By 1987, Asmus had discovered previously unknown evidence indicating that the subject had originally been painted with a necklace, which had apparently then been painted over by Leonardo.[10][11][12] Asmus also determined that restorers had obscured mountains originally appearing in the background of the portrait, likely in order to emphasize foreground features.[11]

In 1988, Asmus published his results from using this technology to compare the Isleworth Mona Lisa and the Louvre Mona Lisa, finding that they shared a signature frequency of degrees of lightness and darkness, which Asmus concluded indicated that the examined aspects of both paintings were painted by the same person.[13] During this same period, Asmus also developed a plan to restore the Qin dynasty Terracotta Army in Xi'an, China,[12] and to piece together a Renaissance fresco by Andrea Mantegna shattered by bombing in World War II.[12] In 1990, he received a Rolex Enterprise Award for his conservation work on the terracotta warriors.[14]

In 2016 Asmus revisited the Isleworth Mona Lisa with professors Vadim Parfenov and Jessie Elford, with the trio publishing the results of scientific examinations that established to their satisfaction that the same artist painted the face of both the Mona Lisa and the Isleworth Mona Lisa.[15][16][17] In 2018, Asmus and Parfenov published findings on the application of the same technology to portraits by Rembrandt.[18]

References

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  1. ^ "People - John Asmus - Brief Bio". UC San Diego - Center for Advanced Nanoscience.
  2. ^ a b c d e Mary S. Rauch, "The Newest in Science is Working To Save the Oldest in Art", Newport News Daily Press (December 28, 1980), Parade p. 16.
  3. ^ Bordalo, Rui (June 4, 2009). "LACONA VII Proceedings: Lasers in the Conservation of Artworks". eConservation Magazine. Archived from the original on May 22, 2009.
  4. ^ "Laser Photography May Preserve Art", The Indianapolis Star (March 31, 1972), p. 36.
  5. ^ "A Benevolent Beam", San Francisco Examiner (September 2, 1973), p. 30.
  6. ^ Everett Holles, "Search For a Lost da Vinci", San Francisco Examiner (August 10, 1975), p. 19.
  7. ^ "Laser finds Capitol art", The Berkeley Gazette (April 26, 1978), p. 26.
  8. ^ de Leschery, Karen (2001). "John Fredrich Asmus: Project". Rolex Awards for Enterprise.
  9. ^ Spie (2014). "John Asmus: Optical techniques and the mysterious Mona Lisa". SPIE Newsroom. doi:10.1117/2.3201403.08.
  10. ^ a b Mark Roth, "Uncovering the Mona Lisa", Pittsburgh Post-Gazette (March 2, 1987), p. 1.
  11. ^ a b "Analysis of Mona Lisa turns up surprises", Indiana Gazette (May 20, 1996), p. 5.
  12. ^ a b c Kristine Moe, "Expert plans facelift for ancient Chinese artwork", Hazleton Standard-Speaker (December 8, 1987), p. 27.
  13. ^ John F. Asmus, "Computer Studies of the Isleworth and Louvre Mona Lisas", in T. Russell Hsing and Andrew G. Tescher, Selected Papers on Visual Communication: Technology and Applications (SPIE Optical Engineering Press, 1990), p. 652-656; reprinted from Optical Engineering, Vol. 28(7) (July 1989), p. 800-804.
  14. ^ "Rolex Awards for Enterprise". Rolex Awards for Enterprise : Profiles in A-F.
  15. ^ Asmus, John F.; Parfenov, Vadim; Elford, Jessie (28 November 2016). "Seeing double: Leonardo's Mona Lisa twin". Optical and Quantum Electronics. 48 (12): 555. doi:10.1007/s11082-016-0799-0. S2CID 125226212.
  16. ^ Boudin de l'Arche, Gerard (2017). A la recherche de Monna Lisa. Cannes, France: Edition de l'Omnibus. ISBN 9791095833017.
  17. ^ "New proof said found for "original" Mona Lisa –". Reuters.com. 13 February 2013. Retrieved 26 July 2017.
  18. ^ Asmus, John F.; Parfenov, Vadim (December 28, 2018). "Characterization of Rembrandt self-portraits through digital-chiaroscuro statistics". Journal of Cultural Heritage.