This is a listing of researchers who have made discoveries or inventions relating to the science and technology of
underwater diving.
Divers who have become notable due to their exploits are not listed here, unless they have published research findings or invented an important item of diving related equipment. For these, see
List of underwater divers.
Augustus Siebe – British engineer mostly known for his contributions to diving equipment (1788-1872)
Teseo Tesei – Italian naval officer and pioneering military diver (1909-1941)
Jacques Triger – French geologist who invented the pressurised caisson (1801–1867) (1801-1867)
Researchers in diving medicine and physiology, including decompression theory
This section needs expansion with: Researchers not listed here, each with at least one reliable reference.. You can help by
adding to it. (October 2022)
^Harris, Gary L. (December 2005). Cast a Deep Shadow - Joe Savoie, The Early Oil-field Divers and the Invention of the Modern Diving Helmet. Legacy publishing.
ISBN0-9776777-0-2.
^
abCurley, M.D.; Bachrach, A.J. (September 1982). "Operator performance in the one-atmosphere diving system JIM in water at 20 degrees C and 30 degrees C". Undersea Biomedical Research. 9 (3): 203–12.
PMID7135632.
^
abBall, R.; Himm, J.; Homer, L. D.; Thalmann, E.D. (1994). "A Model of Bubble Evolution During Decompression Based on a Monte Carlo Simulation of Inert Gas Diffusion". Naval Medical Research Institute Report. 94–36.
^Leitch, D.R.; Barnard, E.E.P. (1982). "Observations on no-stop and repetitive air and oxynitrogen diving". Undersea Biomed Res. 9 (2): 113–129.
PMID7123696.
^Bassett, Bruce E.; Graver, Dennis; Hardy, Jon; Brown, Charles V.; Bell, Richard L.; Thompson, Anthony C.; Borowari, Reid E. (1979). Decompression in Depth : The Proceedings of the Seminar : March 10 1979. Santa Ana California: Professional Association of Diving Instructors (PADI).
^Bennett, P.B. (1965). "Psychometric impairment in men breathing oxygen-helium at increased pressures". Royal Navy Personnel Research Committee, Underwater Physiology Subcommittee Report No. 251. London.
^Berghage, Thomas E.; McCraken, T.M. (December 1979).
"Equivalent air depth: fact or fiction". Undersea Biomedical Research. 6 (4): 379–84.
PMID538866. Archived from the original on 25 December 2010. Retrieved 1 May 2008.{{
cite journal}}: CS1 maint: unfit URL (
link)
^Cui, H. (1986). "In commemoration of the centenary anniversary of the passing away of Paul Bert, one of the founders of aero-medicine and diving medicine". Zhonghua Yi Shi Za Zhi. 16 (2): 116–8.
PMID11612004.
^
abcdTrucco, Jean-Noël; Biard, Jef; Redureau, Jean-Yves; Fauvel, Yvon (1999).
"Table Marine National 90 (MN90), Version du 3 May 1999"(PDF) (in French). F.F.E.S.S.M. Comité interrégional Bretagne & Pays de la Loire; Commission Technique Régionale. Archived from
the original(PDF) on 10 May 2013. Retrieved 4 March 2016.
^Imbert, J.P.; Bontoux, M. (13–14 February 1987). A method for introducing new decompression procedures. Proceedings of the Undersea Medical Society Workshop on validation of decompression schedules. Bethesda, Maryland.
^Lang M. Crossings (Obituary) Dr. Alf O. Brubakk. Undersea Hyperb Med. 2022 Third-Quarter;49(3):393-394. PMID 36001573.
^
abcdeHamilton, Robert W.;
Thalmann, Edward D. (2003). "10.2: Decompression Practice". In Brubakk, Alf O.; Neuman, Tom S (eds.). Bennett and Elliott's physiology and medicine of diving (5th Revised ed.). United States: Saunders. pp. 455–500.
ISBN0-7020-2571-2.
OCLC51607923.
^
abcD'Aoust, B.G.; White, R.; Swanson, H.; Dunford, R.G.; Mahoney, J. (1982). Differences in Transient and Steady State Isobaric Counterdiffusion. Report to the Office of Naval Research (Report).
^
abDavis, Jefferson C.; Sheffield, Paul J.; Schuknecht, L.; Heimbach, R.D.; Dunn, J.M.; Douglas, G.; Anderson, G.K. (August 1977). "Altitude decompression sickness: hyperbaric therapy results in 145 cases". Aviation, Space, and Environmental Medicine. 48 (8): 722–30.
PMID889546.
^Fife, William P. (1979). The use of Non-Explosive mixtures of hydrogen and oxygen for diving. TAMU-SG-79-201 (Report). Texas A&M University Sea Grant.
^
abcWeathersby, Paul K.; Homer, Louis D.; Flynn, Edward T. (September 1984). "On the likelihood of decompression sickness". Journal of Applied Physiology. 57 (3): 815–25.
doi:
10.1152/jappl.1984.57.3.815.
PMID6490468.
^Frankenhaeuser, M.; Graff-Lonnevig, V.; Hesser, C.M. (September 1960). "Psychomotor performance in man as affected by high oxygen pressure (3 atmospheres)". Acta Physiol. Scand. 50: 1–7.
doi:
10.1111/j.1748-1716.1960.tb02067.x.
PMID13701420.
^Windeyer, Brian.
"Frederick Campbell Golding". history.rcplondon.ac.uk. London, UK: Royal College of Physicians. Retrieved 8 October 2022.
^Goldman, Saul (19 April 2007). "A new class of biophysical models for predicting the probability of decompression sickness in scuba diving". Journal of Applied Physiology. 103 (2): 484–493.
doi:
10.1152/japplphysiol.00315.2006.
PMID17446410.
^
abHawkins, J. A.; Shilling, C. W.; Hansen, R. A. (July 1935). "A suggested change in calculating decompression tables for diving". U. S. Nav. Med. Bull. 33: 327–338.
^
abLeMessurier, D.H.; Hills, B.A. (1965). "Decompression Sickness. A thermodynamic approach arising from a study on Torres Strait diving techniques". Hvalradets Skrifter. 48: 54–84.
^
abYount, D.E.; Hoffman, D.C. (1984).
Bachrach, Arthur J.; Matzen, M.M. (eds.). Decompression theory: A dynamic critical-volume hypothesis. Underwater physiology VIII: Proceedings of the eighth symposium on underwater physiology. Bethesda:
Undersea and Hyperbaric Medical Society. pp. 131–146.
^
abHow, J.; West, D.; Edmonds, C. (June 1976). "Decompression sickness in diving". Singapore Med. J. 17 (2): 92–7.
PMID982095.
^Huggins, K.E.; Somers, L. (1981). Mathematical Evaluation of Multi-Level Diving. Michigan Sea Grant Publication #MICHU-SG-81-207 (Report). Ann Arbor.
^
abImbert, J.P.; Fructus, X. (April 1989). "Conception d'une table de décompression [Conception of a decompression table]". Schweiz Z Sportmed. (in French). 37 (1): 27–38.
PMID2727654.
^Keays, F.J. (1909). "Compressed air illness, with a report of 3,692 cases". Department of Medicine Publications of Cornell University Medical College. 2: 1–55.
^
abcKidd, D.J.; Stubbs, R.A.; Weaver, R.S. (1971). Lambertsen, C.J. (ed.). Comparative approaches to prophylactic decompression. Proceedings of the fourth symposium on underwater physiology. New York: Academic Press. pp. 167–177.
^Lang, Michael A. (June 2006). "The state of oxygen-enriched air (nitrox)". Diving and Hyperbaric Medicine. 36 (2): 87–93.
^Lang, Michael A. (2012). Diving In Extreme Environments: The Scientific Diving Experience (Thesis). Doktoravhandlinger ved NTNU. NTNU (Norges teknisk-naturvitenskapelige universitet). pp. 1–206.
ISBN978-82-471-3803-8.
ISSN1503-8181.
^Papadopoulou, V.; Germonpré, P.; Cosgrove, D.; Eckersley, R.J.; Dayton, P.A.; Obeid, G.; Boutros, A.; Tang, M.-X.; Theunissen, S.; Balestra, C. (2018). "Variability in circulating gas emboli after a same scuba diving exposure". Eur J Appl Physiol. 118 (6): 1255–1264.
doi:
10.1007/s00421-018-3854-7.
PMID29616324.
S2CID4561122.
^Parker, E.C.; Survanshi, S.S.; Weathersby, P.K.; Thalmann, E.D. (1992). Statistically Based Decompression Tables VIII: Linear Exponential Kinetics. Naval Medical Research Institute Report 92-73 (Report).
^Sulaiman, Zahid M.; Pilmanis, Andrew A.; O'Connor, Robert B.; Baumgardner, F. Wesley (July 1985). Relationship between age and susceptibility to decompression sickness: A review. AL/CF-TR-1995-0095 (Report). Brooks Air Force Base, Texas: Air Force Materiel Command.
^
abB., Pol; Watelle, T.J. (1854). "Memoire sur les effect de la compression de lair appliquee au creusement des puits a houille". Ann Hyg Publ (in French). 1: 241–279.
^
abPollock, Neal W.; Uguccioni, Donna M.; Dear, Guy de L., eds. (19 June 2005). Diabetes and Recreational Diving: Guidelines for the Future. Proceedings of the Undersea and Hyperbaric Medical Society/Divers Alert Network 2005 June 19 Workshop. Durham, NC: Divers Alert Network.
ISBN9780967306698.
^Huggins, Karl E. (1992). Dynamics of decompression workshop. Course Taught at the University of Michigan
^Shilling, Charles Wesley (1971). Underwater Medicine and Related Sciences: A Guide to the Literature an Annotated Bibliography, Key Word Index, and Microthesaurus. Gordon and Breach, Science Publishers, Inc.
ISBN9781468485028.
^Shilling, Charles W.; Werts, Margaret F.; Schandelmeier, Nancy R., eds. (2013). The Underwater Handbook: A Guide to Physiology and Performance for the Engineer. Springer Science & Business Media.
ISBN9781468421545.
^Acott, C. (1999). "A brief history of diving and decompression illness". South Pacific Underwater Medicine Society Journal. 29 (2).
ISSN0813-1988.
OCLC16986801.
^Stillson, G.D. (1915).
Report in Deep Diving Tests. Technical Report (Report). US Bureau of Construction and Repair, Navy Department. Archived from the original on July 7, 2012. Retrieved 6 August 2008.{{
cite report}}: CS1 maint: unfit URL (
link)
^Tikuisis, Peter; Gerth, Wayne A (2003). "Decompression Theory". In Brubakk, Alf O.; Neuman, Tom S (eds.). Bennett and Elliott's Physiology and Medicine of Diving (5th ed.). Philadelphia, USA: Saunders. pp. 425–7.
ISBN978-0-7020-2571-6.
^Vorosmarti, James Jr., ed. (1987). Fitness to Dive. Thirty-fourth Undersea and Hyperbaric Medical Society Workshop. Bethesda, Maryland: Undersea and Hyperbaric Medical Society.
^Walder, Dennis N. (1945). "The Surface Tension of the Blood Serum in 'Bends'". Royal Air Force Technical Report.
^Webb, James T.; Olson, R.M.; Krutz, R.W.; Dixon, G; Barnicott, P.T. (1989). "Human tolerance to 100% oxygen at 9.5 psia during five daily simulated 8-hour EVA exposures". Aviation, Space, and Environmental Medicine. 60 (5): 415–21.
doi:
10.4271/881071.
PMID2730484.
^Workman, R.D. (1965). Calculation of decompression schedules for nitrogen-oxygeb and helium-oxygen dives. Res. Rep. No6-65 (Report). Washington, DC: US Navy Experimental Diving Unit.
^Yarbrough OD, Behnke AR. The treatment of compressed air illness using oxygen. The Journal of Industrial Hygrography and Toxicology 1939;21:213‐8.
^N., Zuntz (1897). "Zur Pathogenese und Therapie der durch rasche Luftdruck-änderungen erzeugten Krankheiten". Fortschr, D. Med. (in German). 15: 532–639.
^Ginga, Hanns-Christian (2009). Nathan Zuntz: His Life and Work in the Fields of High Altitude Physiology and Aviation Medicine. Academic Press.
ISBN9780080885247.