Herbert Sage Bridge (1919-1995) was an American physicist who developed the first instruments to measure plasma ininterplanetary space and made significant contributions to cosmic ray research. He earned his PhD in physics from MIT in 1950 under Bruno Rossi's supervision after working on wartime projects atPrinceton andLos Alamos Laboratory. His early research focused on cosmic rays. Beginning in 1958, Bridge developed the modulated-grid Faraday cup with Rossi, creating the first instrument capable of detecting dilute space plasma. The instrument flew aboardExplorer 10 in 1961 and was adapted for plasma science experiments on multiple spacecraft, including theVoyager program andParker Solar Probe.
Bridge was born inBerkeley, California, in 1919. He studied chemistry at the University of Maryland (BSc, 1941),[1] and then worked at theNational Defense Research Council Separation Project at Princeton and theLos Alamos Laboratory during the war.[2][3] He got a PhD in physics from MIT, working oncosmic ray research underBruno Rossi's supervision (1950) (before MIT, Bridge worked with Rossi at Los Alamos).[1] He was a researcher at the MIT Laboratory for Nuclear Science, and became a professor there at 1966. In 1957, he went for a year to Switzerland, to work atCERN. He also worked at theBrookhaven National Laboratory.[2] His research "focused on nuclear interactions produced by cosmic ray particles and on the new, unstable particles that result". Among his results was the "discovery of the positiveK-meson and thecloud chamber observation of a cosmic-ray event interpreted tentatively as the annihilation of a heavyantiparticle".[1][4] In 1965, he became an associate director of the MIT's Center for Space Research, became its director in 1978, and retired in 1984.[5]
Herbert S. Bridge's Los Alamos badgeExplorer 10 satellite. The white circular cap covers the opening of the MIT Faraday cup.
Bridge started to work on space plasma in 1958;[1] together with Rossi, he designed and tested a plasma probe based on the classicalFaraday cup. To enhance the instrument's response to positively chargedprotons and to suppress its response tophotoelectrons produced by sunlight, four grids were deployed within the cup. A key innovation was a modulating voltage applied to one of the grids, which converted the signal into analternating current, proportional to the proton flux and uncontaminated by any contribution of photoelectrons.[6]
Voyager Plasma Science Experiment
The modulated-grid Faraday cup for theExplorer 10 (1961) was the first of Bridge's spacecraft instruments. It was the first instrument that detected dilute plasma in interplanetary space.[5] It was further developed into Plasma Science Experiment for theVoyager program (1977) andParker Solar Probe, among others.[7] According to his colleagueJohn W. Belcher, "Bridge was the principal investigator for plasma probes on spacecraft which visited the sun and every major planetary body in the solar system."[7]
Bridge had two sons and a daughter. He enjoyed "cars, photography, mountaineering and the out-of-doors", and visited many high-altitude laboratories through his interest in cosmic rays and mountains.[2]
Bridge, H. S.; Rossi, B. B. (1947). "Cosmic-ray bursts in an unshielded chamber and under one inch of lead at different altitudes".Physical Review.71 (6): 379.Bibcode:1947PhRv...71..379B.doi:10.1103/PhysRev.71.379.2.
Bridge, H. S.; Peyrou, C.; Rossi, B. B.; Safford, R. (1953). "Cloud chamber observations of the heavy charged unstable particles in cosmic rays".Physical Review.90 (5): 921.Bibcode:1953PhRv...90..921B.doi:10.1103/PhysRev.90.921.
Bridge, H. S. (1956). "Experimental results on charged K-mesons and hyperons, Chapter II".Progress in Cosmic Ray Physics, Vol. III. Amsterdam, Holland: North Holland Publishing Company.
Bridge, H. S.; Lazarus, A. J.; Lyon, E. F.; Rossi, B.; Scherb, F. (1962). "Plasma probe instrumentation on Explorer X".Journal of the Physical Society of Japan.17 (Supplement A-III):1113–1121.
Bonetti, A.; Bridge, H. S.; Lazarus, A. J.; Lyon, E. F.; Rossi, B.; Scherb, F. (1963). W. Priester (ed.).Explorer X plasma measurements. Proceedings of the Third International Space Science Symposium, Space Research III. Amsterdam, the Netherlands: North-Holland Publ. Co. pp. 540–552.
Bridge, H. S.; Lazarus, A. J.; Snyder, C. W.; Smith, E. J.; Davis, Jr., L.; Coleman, Jr., P. J.; Jones, D. E. (1967). "Mariner V: Plasma and magnetic fields observed near Venus".Science.158 (3809):1669–1673.Bibcode:1967Sci...158.1669B.doi:10.1126/science.158.3809.1669.PMID17749787.
Bridge, H. S.; Lazarus, A. J.; Scudder, J. D.; Ogilvie, K. W.; Hartle, R. E.; Asbridge, J. R.; Bame, S. J.; Feldman, W. C.; Siscoe, G. L. (1974). "Observations at Venus encounter by the plasma science experiment on Mariner 10".Science.183 (4131):1293–1296.Bibcode:1974Sci...183.1293B.doi:10.1126/science.183.4131.1293.PMID17791370.
Ogilvie, K. W.; Scudder, J. D.; Hartle, R. E.; Siscoe, G. L.; Bridge, H. S.; Lazarus, A. J.; Asbridge, J. S.; Bame, S. J.; Yeates, C. M. (1974). "Observations at Mercury encounter by the plasma science experiment on Mariner 10".Science.185 (4146):145–151.Bibcode:1974Sci...185..145O.doi:10.1126/science.185.4146.145.PMID17810507.
Bridge, H. S.; Belcher, J. W.; Butler, R. J.; et al. (1977). "The plasma experiment on the 1977 Voyager mission".Space Science Reviews.21 (3):259–287.Bibcode:1977SSRv...21..259B.doi:10.1007/BF00211542.
Bridge, H. S.; Belcher, J. W.; Lazarus, A. J.; Sullivan, J. D.; McNutt, Jr., R. L.; Bagenal, F.; Scudder, J. D.; Sittler, E. C.; Siscoe, G. L.; Vasyliunas, V. M.; Goertz, C. K.; Yeates, C. M. (1979). "Plasma observations near Jupiter: Initial results from Voyager 1".Science.204 (4396):987–991.Bibcode:1979Sci...204..987B.doi:10.1126/science.204.4396.987.PMID17800436.
^Bridge, Herbert S. (27 March 2013)."Faraday Cup Plasma Probe".National Space Science Data Center. NASA. Retrieved28 April 2013.NSSDC ID: 1961-010A-02; Version 4.0.21
