Difference between revisions of "James Deardorff"

From Billy Meier
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==Three Papers==
 
==Three Papers==
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'''Possible extraterrestrial strategy for Earth.''' ''Quart. J. Royal Astron. Soc.'', 27, pp. 94-101 (1986).
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:The arguments are reviewed which hold that our Galaxy is nearly saturated with extraterrestrial life forms, that our existence requires in hindsight that they were and are benevolent toward us, and that our lack of detection of them or communications from them implies that an embargo is established against us to prevent any premature knowledge of them. An inconsistency is detected, in that any sudden lifting of the embargo in a manner obvious to the public would cause societal chaos and possibly touch off a nuclear exchange, while any communications received via radio telescope would likely be either quickly confiscated by government agencies and not revealed to the public, or heavily censored. The inconsistency is that the advanced civilization should be expected to have planned some other strategy, if it is actually benevolent, experienced and intelligent.
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:It follows that any embargo not involving alien force must be a leaky one designed to allow a gradual disclosure of the alien message and its gradual acceptance on the part of the general public over a very long time scale. A possible strategy for their accomplishing this is proposed.
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'''Examination of the embargo hypothesis as an explanation for the Great Silence.''' ''J. British Interplanetary Soc.'', 40, pp. 373-379 (1987).
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:The embargo or quarantine hypothesis for explaining the 'Great Silence' is reviewed and found to be more plausible than the view that, at most, we might expect to receive radio messages from some distant star. The latter hypothesis is shown to be compatible with extraterrestrial technologies only a few hundred years in advance of our own, whereas the embargo hypothesis more reasonably infers that they should be tens of thousands of years in advance and in control of any contact with humanity.
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:Reasons why the embargo hypothesis has received insufficient attention are presented: they involve failure to allow for the application of both greatly advanced alien technology and high ethical values by maturing societies of extraterrestrial intelligence. The implication of the embargo hypothesis for space development is that planets already harbouring diverse biota are ethically off-limits for exploitive colonisation.
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'''Extraterrestrial communications.''' ''J. Communication'', 37, pp. 181-184 (1987).
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No abstract; but summary is as follows:
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:So far, the search for alien intelligence, in its concentration upon a radio message from the stars, has neglected to search right here on Earth and examine the UFO phenomenon. The prevailing scientific rationale responsible for this breakdown in logic fails to take into account the embargo hypothesis and Clarke's third law, which holds that the actions of advanced extraterrestrials would likely seem to us to defy the laws of physics
  
 
==Short Bibliography==
 
==Short Bibliography==

Revision as of 19:27, 7 October 2013

About James Deardorff

My college years began as a freshman at Reed College in Portland, Oregon, in 1946-47, but then I switched to Stanford University, where I entered their Naval ROTC program, while majoring in physics. There I received the BS degree in 1950. With a year more of tuition covered by Naval ROTC, I attended UCLA in 1950-51, where I majored in meteorology, having had a strong interest in weather since early youth. So I received a second BS degree at UCLA, in meteorology. Then the Navy took me as an ensign, assigning me as a line officer aboard the USS Yancey (an AKA or "attack" cargo ship) for about two years, traveling between Oakland, CA, and Japan (Yokosuka and Sasebo), after which I transferred to Albuquerque, NM, to train in Special Weapons deployment and see the desert country. This led to a stint aboard the USS Lake Champlain (aircraft carrier) in the Mediterranean. After about 4 years in all I opted out, being a Ltjg then, so as to pursue a civilian research career within the field of meteorology, which interested me more and more.

The University of Washington was where I attended graduate school, in their Dept. of Meteorology, where I received the MS degree in 1956 and PhD in 1959. There I met my wife-to-be, Leona Winder, and we were married in 1956. After a couple years of post-graduate work there, in the field of air-sea interaction, I was accepted for a position at the National Center for Atmospheric Research (NCAR) in Boulder, CO, in 1962. There I migrated into a study area involving laboratory and numerical modeling of turbulent thermal convection, and boundary-layer turbulence and diffusion. After a few years at NCAR I became a senior scientist, enjoying a successful, 16-year research career there. A list of the published research papers during this career is given in my #Curriculum Vitae. During this time our family had grown to five, with three lively daughters.

Leona and I had become members of Mt. Calvary Lutheran Church in Boulder, singing regularly in their choir. (I had been raised as a nominal Presbyterian, but switched to my wife's religion, Lutheran, upon marriage.) This experience provided a valuable background to my later interest in the origins of Christianity.

After pressures at NCAR towards administrative duties, which I disliked, grew too strong, I took a position at Oregon State University in Corvallis, OR, in 1978, as a research professor in the Department of Atmospheric Sciences. A desire to return to the Pacific Northwest, with its proximity to the Cascade Mts. and to the Pacific Ocean, entered into this decision.

It was in Oregon that I became interested in the UFO phenomenon in the late 1970s, soon deciding that the evidence points conclusively towards its being a reality. Perhaps a previous interest in science fiction helped draw me in this direction. By 1985 I realized that my research interests had switched over irrevocably towards the UFO area and its implications for society; it was around this time that the first two of #My 5 or 6 UFO Sightings occurred. So in 1986 I made the decision to take early retirement from OSU. Writing papers, research grant proposals and attending to associated administrative duties no longer seemed as important as exploring the UFO phenomenon and trying to help bring it to public attention. However, by 1987 I had written #Three Papers dealing with the UFO subject in peer-reviewed journals. Yet, the Meier UFO-contactee case and the Talmud of Jmmanuel (TJ) absorbed most of my attention.

Since established scholars cannot treat the TJ seriously, and have no incentive to investigate it, I was motivated to turn myself into an independent New Testament scholar to the best of my ability. A course in New Testament Gospels at a community college in 1987 was a helpful beginning. However, from it I quickly learned that the basic conclusions that are taught as fact depend upon the degree of theological commitment of the instructor and of the writers of the textbooks selected for the course. For example, my instructor (a minister) taught that if two of the three Synoptic Gospels (Matthew, Mark and Luke) agree upon an item or teaching, it is probably true, and if all three agree it must certainly be true. However, common sense instead indicates that if one Gospel writer made heavy use of the Gospel that came before his, and the third made heavy use of the two that came before his, as even the early church fathers testify, this guideline need not be true at all. So the rest of my education in New Testament scholarship came from self-learning through spending days on end in the Oregon State University library's book stacks, making frequent use of inter-library loans, and in visiting other university libraries. Occasional tips from OSU's Prof. Marcus Borg were also helpful in leading me to certain reference material. Later I took a course in New Testament Greek, which was useful in enabling me to better understand scholars' arguments within journal articles and textbooks. Still later I partook in Internet e-mail lists dedicated to various biblical topics for further exposure to both mainstream and alternative viewpoints.

My New Testament studies, plus independent study of the topic of reincarnation, caused me to leave the Lutheran church in the mid-1980s. My wife and I then switched to the Unitarian Universalist Fellowship of Corvallis. That church has no theological creeds to recite, and their tradition of tolerance allows a wide range of personal beliefs within their members. I was even allowed to give a couple of guest sermons -- one on reincarnation and one on the UFO phenomenon, in 1986 and 1987, respectively.

My studies on the subject of reincarnation were prompted both by what Meier had learned from his contacting ETs, and by the TJ. At first I was surprised to find so much evidence supporting the reality of reincarnation, this being expressed either directly or indirectly in over a dozen books written just by MDs and PhDs. (These lent very little, if any, support to the Hindu concept of transmigration of the soul to other animals, nor does the TJ.) There are studies of very young children who at times spontaneously spoke of their past lives to sufficient extent that the past-life family could be identified beyond doubt -- some 1500 of these cases are in the records of the late Dr. Ian Stevenson, and still others within the files of other researchers. Then there are tens of thousands of past-life descriptions supplied by patients who underwent hypno-regression therapy, and some of these have received definite confirmation, although the past-life therapists' interest was usually more in healing the patient than in trying to verify reincarnation. There are other cases of adults experiencing occasional past-life flashbacks spontaneously, and much documentation of near-death experiences, which themselves are consistent with the soul or spirit surviving death. See my #Short Bibliography on these topics. After much reading and study of these in the 1980s, the TJ's teachings on reincarnation appeared quite factual and credible to me.

By 1990 I had learned enough about the Meier contactee case, the TJ and New Testament scholarship to write a book about the Talmud of Jmmanuel, pointing out the several hundred reasons either supportive of or consistent with the TJ being genuine and the Gospel of Matthew having derived from the TJ, rather than vice versa. It is called Celestial Teachings: The Emergence of the True Testament of Jmmanuel (Jesus), (Wildflower Press); however it went out of print around 2002. Its publisher was Dr. Brian Crissey of Granite Publishing and Wildflower Press, who also published the TJ's first three editions in English, in 1992, 1996 and 2001. The German text of the TJ is printed on facing pages, because Meier has insisted upon this format for any translation in order to better maintain the quality of the latter.

Because the TJ points to terrible falsehoods within Christianity and some within Judaism also, it and my book, Celestial Teachings, could only be distributed primarily within New Age bookstores, which scholars of course do not frequent. So in order to make the TJ's solutions for long outstanding, but not heretical, problems of New Testament scholarship available to open-minded scholars, I wrote The Problems of New Testament Gospel Origins, which Mellen Press in Lewiston, NY, (actually Mellen Research University Press) published in 1992. In it I avoided any mention of the Meier UFO contactee case and the TJ's major heresies in order that scholars not have those particular excuses for ignoring the book. However, in it I did make one brief reference to the TJ and to Celestial Teachings to let the serious reader know that most of the basic ideas did not stem from me.

I also wished to make the TJ's solutions to outstanding New Testament problems that do involve great heresies for Christianity available to the open-minded non-Christian scholar. So I wrote a third book, Jesus in India: A Reexamination of Jesus' Asian Traditions in the Light of Evidence Supporting Reincarnation. I was fortunate to find a publisher for it -- International Scholars Publications of Bethesda, MD, in 1994, later taken over by University Press of America, an imprint of Rowland & Littlefield Publishers.

More recently, much of my time has been devoted towards working on this website, which I hope you find informative and enlightening.

Curriculum Vitae

Vital Statistics

Born: 28 August 1928, Seattle, Washington
Present Position: Professor Emeritus
Department of Atmospheric Sciences
(College of Oceanic and Atmospheric Sciences)
Oregon State University
Corvallis, Oregon 97331
E-mail address: deardorj@proaxis.com

Education

(1942-1946) - Lincoln High School, Portland, OR
B.S. (1950) - Physics, Stanford University
B.S. (2nd) (1951) - Meteorology, University of California at Los Angeles
M.S. (1956) - Meteorology, University of Washington
Ph.D. (1959) - Meteorology, University of Washington

Professional Employment

1951-1955: Line Officer; Special Weapons Electrical Officer, U.S. Navy
1955-1958: Research and Teaching Assistant, University of Washington
1958-1959: Acting Instructor, Meteorology, University of Washington
1959-1962: Senior Scientist, Air-Sea Interface, University of Washington
1962-1978: Senior Scientist, National Center for Atmospheric Research, Boulder, Colorado
1974-1978: Head, Small Scale Analysis and Prediction Project, National Center for Atmospheric Research
1978-1986: Research Professor, Department of Atmospheric Sciences, Oregon State University
1986-: Professor Emeritus, Oregon State University

Other Professional Employment

1966-1967: One year at University of Washington, teaching meteorology
1970-1971: Six-month sabbatical at UCLA working on boundary-layer parameterization
1973-1974: Seven month leave of absence at University of Stockholm, Sweden (International Meteorological Institute) to work on parameterization of effects of scattered cumulus clouds on the subcloud layer
1980-1983: Co-editor (one of several), Journal of the Atmospheric Sciences
1982-1987: Assoc. Editor, Boundary-Layer Meteorology

Professional Affiliations, Honors or Awards

1971 - Editorial Award, American Meteorological Society
1972 - Publications Award, National Center for Atmospheric Research
1973 - Elected a Fellow of the American Meteorological Society
1974 - Second Half-Century Award for furthering "our understanding of turbulent processes in the planetary boundary layer through analytical studies and highly original numerical and laboratory experiments," American Meteorological Society
1978 - Rossby Research Medal, American Meteorological Society.
1986 - Was elected a Fellow of the American Association for the Advancement of Science

Publications in Reviewed Literature

  • 1958: The average slope of the surface wind, J. Meteor., 15, 334-335.
  • 1958: Vertical distribution of wind speed, temperature and humidity above a water surface, J. Marine Res. 17, 141-157 (R.G. Fleagle, J.W. Deardorff, and F.J. Badgley).
  • 1961: On the direction and divergence of the small-scale turbulent heat flux, J. Meteor. 18, 540-548.
  • 1961: Evaporation reduction by natural surface films, J. Geophys. Res. 66, 3613-3614.
  • 1961: Local evaporation from a smooth water surface, J. Geophys. Res. 66, 529-534.
  • 1962: Satellite cloud photos and large-scale vertical motion, J. Appl. Meteor. 2, 173-175.
  • 1963: On the stability of viscous plane Couette flow, J. Fluid Mech. 15, 623-631.
  • 1964: A numerical study of two-dimensional parallel-plate convection, J. Atmos. Sci. 21, 419-438.
  • 1965: Gravitational instability between horizontal plates with shear, Phys. Fluids 8, 1027-1030.
  • 1965: A numerical study of pseudo three-dimensional parallel-plate convection, J. Fluid Mech. 22, 419-435.
  • 1965: The effect of two-dimensionality on the suppression of thermal turbulence, J. Fluid Mech. 23, 337-353 (J.W. Deardorff and G.E. Willis).
  • 1965: Measurements on the development of thermal turbulence in air between horizontal plates, Phys. Fluids, 8, 2225-2229 (G.E. Willis and J.W. Deardorff).
  • 1966: The countergradient heat flux in the lower atmosphere and in the laboratory, J. Atmos. Sci. 23, 503-506.
  • 1967: Investigation of turbulent thermal convection between horizontal plates, J. Fluid Mech. 28, 675-704 (J.W. Deardorff and G.E. Willis).
  • 1967: Development of short-period temperature fluctuations in thermal convection, Phys. Fluids, 10, 931-937 (G.E. Willis and J.W. Deardorff).
  • 1967: Empirical dependence of the eddy coefficient for heat upon stability above the lowest 50m, J. Appl. Meteor. 6, 631-643.
  • 1967: The free-convection temperature profile, Quart. J. Roy. Meteor. Soc. 93, 166-175 (J.W. Deardorff and G.E. Willis).
  • 1967: Comment on paper by G.E. Harbeck, Jr., 'A note concerning the eddy transfer coefficients of momentum and water vapor under near-adiabatic conditions,'Water Resources Res. 3, 909-910.
  • 1967: Confirmation and renumbering of the discrete heat flux transitions of Malkus, Phys. Fluids, 10, 1861-1866 (G.E. Willis and J.W. Deardorff).
  • 1967: Aerodynamic theory of wave growth with constant wave steepness, J. Oceanog. Soc. Japan 23, 12-30.
  • 1968: Dependence of air-sea transfer coefficients on bulk stability, J. Geophys. Res. 73, 2549-2557.
  • 1968: Examination of numerically calculated heat fluxes for evidence of a supercritical transition, Phys. Fluids, 11, 1254-1256.
  • 1968: On the distinction between 'total' heat flux and eddy heat flux, J. Atmos. Sci. 25, 521-522 (J.W. Deardorff and J.A. Businger).
  • 1969: Laboratory investigation of non-steady penetrative convection, J. Fluid Mech. 35, 7-31 (J.W. Deardorff, G.E. Willis, and D.K. Lilly).
  • 1969: Numerical study of heat transport by internal gravity waves above a growing unstable layer, Phys. Fluids Suppl. II 184-194.
  • 1969: Similarity principles for numerical integrations of neutral barotropic planetary boundary layers and channel flows, J. Atmos. Sci. 26, 763-767.
  • 1970: A numerical study of three-dimensional turbulent channel flow at large Reynolds numbers, J. Fluid Mech. 41, 453-480.
  • 1970: Convective velocity and temperature scales for the unstable planetary boundary layer and for Rayleigh convection, J. Atmos. Sci. 27, 1211-1213.
  • 1970: Lagrangian statistics from numerically integrated shear flow, Phys. Fluids 13, 584-595 (J.W. Deardorff and R.L. Peskin).
  • 1970: The oscillatory motions of Rayleigh convection, J. Fluid Mech. 44, 661-672 (G.E. Willis and J.W. Deardorff).
  • 1970: Discussion of paper by V.H. Regener and L. Aldaz, 'Turbulent transport near the ground as determined from measurements of the ozone gradient,' J. Geophys Res. 75, 4184-4186.
  • 1970: A three-dimensional numerical investigation of the idealized planetary boundary layer, Geophys. Fluid Dynamics l, 377-410.
  • 1970: Preliminary results from numerical integrations of the unstable planetary boundary layer, J. Atmos. Sci. 27, 1211-1213.
  • 1970: A forum for post-clarification of discussions at AMS meetings? (Letter to the Editor), Bulletin, Amer. Meteor. Soc. 51, 435.
  • 1971: On the magnitude of the subgrid scale eddy coefficient, J. Comp. Phys. 7, 120-133.
  • 1971: Comments on 'Observational studies in the atmospheric boundary layer' by R.H. Clarke, Quart. J. Roy. Meteor. Soc. 97, 760-761.
  • 1972: Parameterization of the planetary boundary layer for use in general circulation models, Mon. Wea. Rev. 100, 93-106.
  • 1972: Roll-diameter dependence in Rayleigh convection and its effect upon the heat flux, J. Fluid Mech. 59, 351-357 (G.E. Willis, J.W. Deardorff, and R.C.J. Somerville).
  • 1972: Numerical investigation of neutral and unstable planetary boundary layers, J. Atmos. Sci. 29, 91-115.
  • 1972: Theoretical expression for the countergradient vertical heat flux, J. Geophys. Res. 77, 5900-5904.
  • 1972: Comments on 'A comparison of circulations in transverse and longitudinal planes in an unstable planetary boundary layer' by J.K. Angell, J. Atmos. Sci. 29, 1394-1395.
  • 1972: Computer methods for simulation of multidimensional, nonlinear subsonic, incompressible flow, J. Heat Transfer 94, 337-346 (D.G. Fox and J.W. Deardorff).
  • 1973: Note on a paper by D.R. Caldwell, C.W. Van Atta and K.N. Helland (concerning a laboratory study of the Ekman layer), Geophys. Fluid Dynamics 4, 293-295.
  • 1973: The use of subgrid transport equations in a three-dimensional model of atmospheric turbulence, J. Fluid Eng. 95, 429-438.
  • 1973: An explanation of anomalously large Reynolds stresses within the convective planetary boundary layer, J. Atmos. Sci. 30, 1070-1076.
  • 1974: Differences between eddy coefficients for instantaneous and continuous vertical diffusion into the neutral surface layer, Boundary-Layer Meteor. 5, 451-457.
  • 1974: Computer and laboratory modeling of the vertical diffusion of non-buoyant particles in a mixed layer, Advances in Geophysics 18B, 187-200 (J.W. Deardorff and G.E. Willis).
  • 1974: Comment on a paper by A.K. Betts, 'Non-precipitating cumulus convection and its parameterization,'Quart. J. Roy. Meteor. Soc. l00, 122-123 (J.W. Deardorff, G.E. Willis, and D.K. Lilly).
  • 1974: Stability functions for the boundary layer resistance laws based upon observed boundary layer height, J. Atmos. Sci. 31, 1324-1325 (J.W. Melgarejo and J.W. Deardorff).
  • 1974: Three-dimensional numerical study of the height and mean structure of a heated planetary boundary layer, Boundary-Layer Meteor. 7, 81-106.
  • 1974: Three-dimensional study of turbulence in an entraining mixed layer, Boundary-Layer Meteor. 7, 199-226.
  • 1974: Similarity theory for the planetary boundary layer of time-dependent height, J. Atmos. Sci. 31, 1449-1452 (S.S. Zilitinkevich and J.W. Deardorff).
  • 1974: A laboratory model of the unstable planetary boundary layer, J. Atmos. Sci. 31, 1297-1307 (G.E. Willis and J.W. Deardorff).
  • 1974: Reply (to Pasquill and Smith), Boundary-Layer Meteor. 7, 229-230.
  • 1975: Comments on 'On the interaction between the subcloud and cloud layers in tropical regions' by Y. Ogura and H.-R. Cho, J. Atmos. Sci. 32, 2363-2364.
  • 1975: A parameterization of diffusion into the mixed layer, J. Appl. Meteor. 14, 1451-1458 (J.W. Deardorff and G.E. Willis).
  • 1975: Reply (to Arya and Wyngaard (1974)), J. Atmos. Sci. 32, 840 (S.S. Zilitinkevich and J. W. Deardorff).
  • 1975: Revision to 'Stability functions for the boundary-layer resistance laws', J. Atmos. Sci. 32, 837-839 (J.W. Melgarejo and J.W. Deardorff).
  • 1976: Usefulness of liquid-water potential temperature in a shallow-cloud model,J. Appl. Meteor. 1, 98-102.
  • 1976: On the entrainment rate of a stratocumulus-topped mixed layer, Quart. J. Roy. Meteor. Soc. 102, 563-582.
  • 1976: Discussion of 'Thermals over the sea and gull flight behavior' by A.H. Woodcock, Boundary-Layer Meteor. 10, 241-246.
  • 1976: Island wind shadows observed by satellite and radar, Bull. Amer. Meteor. Soc. 57, 1241-1242.
  • 1976: A laboratory model of diffusion into the convective planetary boundary layer Quart. J. Roy. Meteor. Soc. 102, 427-445 (G.E. Willis and J.W. Deardorff).
  • 1976: On the use of Taylor's translation hypothesis for diffusion in the mixed layer, Quart. J. Roy. Meteor. Soc. 102, 817-822 (G.E. Willis and J.W. Deardorff).
  • 1977: Subgrid-scale condensation in models of nonprecipitating clouds, J. Atmos. Sci. 34, 345-355 (G. Sommeria and J.W. Deardorff).
  • 1977: A parameterization of ground-surface moisture content for use in atmospheric prediction models, J. Appl. Meteor. 16, 1182-1185.
  • 1977: Comments on 'The effect of variable surface albedo on the atmospheric circulation in desert regions.' J. Appl. Meteor. 17, 560 (Sherwood B. Idso and J.W. Deardorff).
  • 1977: Workshop on stability classification schemes and sigma curves, Bull. Amer. Meteor. Soc. 58, 1305-1309 (S.R. Hanna, G.A. Briggs, J.W. Deardorff, B.A. Egan, F.A. Gifford, F. Pasquill).
  • 1978: Efficient prediction of ground surface temperature and moisture with inclusion of a layer of vegetation, J. Geophys. Res. 83, 1889-1903.
  • 1978: A laboratory study of dispersion from an elevated source within a modeled convective planetary boundary layer, Atmos. Environ. 12, 1305-1311 (G.E. Willis and J.W. Deardorff).
  • 1978: Reply to Panofsky, Atmos. Envir. 12, 2036 (J.W. Deardorff and G.E. Willis).
  • 1978: Closure of second- and third-moment rate equations for diffusion in homogeneous turbulence, Phys. of Fluids, 21, 525-530.
  • 1978: Summary of recommendations made by the AMS Workshop on Stability Classification Schemes and Sigma Curves, Bull. Amer. Meteor. Soc. 59, 1025-1033 (J.R. Hanna, G.A. Briggs, J.W. Deardorff, B.A. Egan, F.A. Giffordand F. Pasquill).
  • 1979: Prediction of mixed layer entrainment for realistic capping inversion structure, J. Atmos. Sci. 36, 424-436.
  • 1979: Laboratory observations of turbulent penetrative-convection planforms, J. Geophys. Res. 84, 295-302, (G.E. Willis and J.W. Deardorff).
  • 1980: Cloudtop entrainment instability, J. Atmos. Sci. 37, 131-147.
  • 1980: Comments on 'Marine stratocumulus convection. Part 1: Governing equations and horizontally homogeneous solutions,' J. Atmos. Sci. 37, 481-482 (J.W. Deardorff and J. Businger).
  • 1980: The boundary-layer growth equations with Reynolds averaging, J. Atmos. Sci. 37, 1405-1409 (J.W. Deardorff and E.W. Peterson).
  • 1980: Stratocumulus-capped mixed layers derived from a three-dimensional model, Bound.-Layer Meteor. 18, 495-527.
  • 1980: Laboratory studies of the entrainment zone of a convectively mixed layer, J. Fluid Mech. 100, 41-64 (J.W. Deardorff, G.E. Willis, and B.H. Stockton).
  • 1980: Comments on 'A numerical investigation of mixed-layer dynamics.' J. Phys. Oceanogr. 10, 1695-1696.
  • 1981: A laboratory model of dispersion from a source in the middle of the convectively mixed layer, Atmos. Environ. 15, 109-117 (G.E. Willis and J.W. Deardorff).
  • 1981: On the distribution of mean radiative cooling at the top of a stratocumulus- capped mixed layer, Quart. J. Roy. Meteor. Soc. 107, 191-202.
  • 1981: Further considerations on the Reynolds average of the kinematic boundary condition. J. Atmos. Sci. 38, 659-661.
  • 1982: Dependence of mixed-layer entrainment on shear stress and velocity jump, J. Fluid Mech. 115, 123-149 (J.W. Deardorff and G.E. Willis).
  • 1982: Ground-level concentrations due to fumigation into an entraining mixed layer. Atmos. Environ. 16, 1159-1170 (J.W. Deardorff and G.E. Willis).
  • 1982: Investigation of the frozen-turbulence hypothesis for temperature spectra in a convectively mixed layer. Phy. Fluids 25, 21-28 (J.W. Deardorff and G.E. Willis).
  • 1982: Numerical study of terrain-induced mesoscale motions in a mixed layer. J. Atmos. Sci. 39, 2464-2476 (Y.-J. Han, K. Ueyoshi and J.W. Deardorff).
  • 1982: A numerical simulation of an atmospheric vortex street. Tellus 34, 555-556 (P.H. Ruscher and J.W. Deardorff).
  • 1982: On the dichotomy in theoretical treatments of the atmospheric boundary layer J. Atmos. Sci. 39, 2096-2098 (J.W. Deardorff and L. Mahrt).
  • 1982: Further considerations on modeling the sea breeze with a mixed-layer model. Mon. Wea. Rev. 110, 757-765. (R.A. Anthes, D. Keyser and J.W. Deardorff).
  • 1983: Comment on 'A potential flow model of turbulence caused by breaking surface waves'. J. Geophys. Res. 88, 2710.
  • 1983: Authors' reply to comments on ground-level concentrations due to fumigation Atmos. Environ. 17, 1030-1032 (J.W. Deardorff and G.E. Willis).
  • 1983: A multi-limit mixed-layer entrainment formulation. J. Phys. Oceanog. 13, 988-1002.
  • 1983: Comments on 'The daytime planetary boundary layer; a new interpretation of Wangara'. Quart. J. Roy. Met. Soc. 109, 677-681.
  • 1983: On plume rise within a convective boundary layer, Atmos. Environ. 17, 2435-2447 (G.E. Willis and J.W. Deardorff).
  • 1983: Comments on 'A diagnostic model for estimating winds at potential sites for wind turbines'. J. Climate and Appl. Meteor. 22, 1312 (J.W. Deardorff and Y.-J. Han).
  • 1984: On the use of an annulus to study mixed-layer entrainment. J. Fluid Mech. 142, 97-120 (J.W. Deardorff and S.-C. Yoon).
  • 1984: Groundlevel concentration fluctuations from a buoyant and a non-buoyant source within a laboratory convectively mixed layer. Atmos. Environ. 18, 1297-1309 (J.W. Deardorff and G.E. Willis).
  • 1984: Numerical study of terrain-induced mesoscale motions and hydrostatic form drag in a heated, growing mixed layer. J. Atmos. Sci. 41, 1420-1441 (J.W.Deardorff, K. Ueyoshi, and Y.-J. Han).
  • 1985: Further results from a laboratory model of the convective planetary boundary layer. Boundary-Layer Meteor. 32, 205-236.
  • 1985: Sub-grid-scale turbulence modeling. In Adv. in Geophys. 28B, 337-343.
  • 1985: Comments on 'Transilient turbulence theory, Part I'. J. Atmos. Sci. 42, 2069.
  • 1985: Laboratory experiments on diffusion: The use of convective mixed-layer scaling, J. Climate and Appl. Meteor. 24, 1143-1151.
  • 1985: Authors' reply to 'Ground-level concentration fluctuations from a buoyant and a non-buoyant source...'. Atmos. Envir. 18, 1212-1213.
  • 1985: Book Review of Large-Eddy Simulation: Guidelines for its Applications to Planetary Boundary Layer Research, J.C. Wyngaard, ed., Bull. Amer. Meteor. Soc. 66 (Dec).
  • 1986: Comments on 'Radiative cooling near the top of a cloudy mixed layer,' Quart. J. Roy. Meteor. Soc. 112, 273-275.
  • 1987: Buoyant plume dispersion and inversion entrapment in and above a laboratory mixed layer. Atmos. Envir. 21, 1725-1735 (G.E. Willis and J.W. Deardorff).
  • 1987: Turbulence within a baroclinic laboratory mixed layer above a sloping surface, J. Atmos. Sci. 44, 772-778 (with G.E. Willis).

Other Publications and Reports

  • 1973: Three-dimensional numerical modeling of the planetary boundary layer, in Workshop on Micrometeorology (Duane A. Haugen, editor), American Meteorol. Society, Boston, 14-18 August, Science Press, 277-311.
  • 1974: Rate of growth of the nocturnal boundary layer, in Proc. of Symposium on Air Pollution, Turbulence and Diffusion, December 1971, Las Cruces, New Mexico (H.W. Church and R.E. Luna, editors), 183-190.
  • 1974: Computer and laboratory modeling of the vertical diffusion of non-buoyant particles in a mixed layer, in Turbulent Diffusion in Environment Pollution (R.N. Frenkiel and R.E. Munn, editors), Academic Press, New York/London (J.W. Deardorff and G.E. Willis).
  • 1974: Physical modeling of diffusion in the mixed layer, in Proc. of Symposium on Atmospheric Diffusion and Air Pollution, American Meteorological Society, Santa Barbara, California, 9-13 September (J.W. Deardorff and G.E. Willis).
  • 1974: Means by which the planetary boundary layer affects the free troposphere, in Subsynoptic Extratropical Weather Systems: Observations, Analysis, Modeling and Prediction, Vol. II, Proc. ASP/SSAPP Summer Colloquium, NCAR, Boulder, Colorado, 670-682.
  • 1975: The development of boundary-layer turbulence models for use in studying the severe storm environment, in Open Sesame, Proc. of Mtg. at Boulder, 4-6 September (D.K. Lilly, editor) NOAA/ERL, Boulder, Colorado, 251-264.
  • 1975: Laboratory simulation of the convective planetary boundary layer, in Atmospheric Technology 7, National Center for Atmos. Research, 30-86 (G.E. Willis and J.W. Deardorff).
  • 1975: Boundary layer data from a numerical integration in three dimensions; manuscript available from authors (J.W. Deardorff and Margaret Drake).
  • 1976: Clear and cloud-capped mixed layers: their structure and growth, numerical simulation, and parameterization. In Proc. of the European Center for Medium Range Weather Forecasts Seminar Series: Treatment of the Boundary Layer in Numerical Weather Prediction, 6-10 September, Bracknell, England.
  • 1976: Neglect of downstream diffusion--how good an assumption for the daytime mixed layer? Preprints, American Meteorological Society Third Symposium on Atmospheric Turbulence, Diffusion and Air Quality, Raleigh, North Carolina, 19-22 October, 255-258 (J.W. Deardorff and G.E. Willis).
  • 1976: Visual observations of horizontal planforms of penetrative convection paper for Third Symposium on Atmospheric Tubulence, Diffusion and Air Quality, Raleigh, North Carolina, 19-22 October, 9-12 (G.E. Willis and J.W. Deardorff).
  • 1978: Different approaches toward predicting pollutant dispersion in the boundary layer, and their advantages and disadvantages, in Symp. on Boundary Layer Physics Applied to Specific Problems of Air Pollution. Swedish Meteorological and Hydrological Institute (S.M.H.I), Norrköping, Sweden, 19-23 June.
  • 1980: Progress in understanding entrainment at the top of a mixed layer, in Workshop on the Planetary Boundary Layer, Boulder, Colorado, 14-18 August, 1978, American Meteorological Society, Boston, Massachusetts (J.C. Wyngaard, editor), 36-66.
  • 1981: How time dependence and variable Froude number can explain more rapid entrainment of the two-layer system in annulus experiments, in Third Symp. on Turbulent Shear Flows, University of California, Davis, September 9-11, 12.1-12.4.
  • 1981: Modeling fumigation in a laboratory mixed layer, in Fifth Symp. on Turbulence, Diffusion and Air Pollution, Atlanta, Georgia, March 9-13, American Meteorological Society, 157-158.
  • 1982: Simulation of terrain effects using a mesoscale mixed-layer model, in Proc. 10th IMACS World Congress on Systems Simulation and Scientific Computation, Montreal, Canada, August 8-13, 195-196.
  • 1983: Concentration fluctuations within buoyant and non-buoyant laboratory plumes, in Sixth Symp. on Turbulence and Diffusion, Amer. Meteor. Soc., Boston, March 22-25, 237-240.
  • 1983: Dependence of laboratory mixed-layer entrainment rates upon interfacial turbulence and stability, in Sixth Symp. on Turbulence and Diffusion, Amer. Meteor. Soc., Boston, March 22-25, 321-324.
  • 1984: Upstream diffusion in the convective boundary layer with weak or zero mean wind, in Fourth Joint Conf. on Applications of Air Pollution Meteorology Amer. Meteor. Soc., Boston, October 16-19, 4-7.
  • 1985: Review of "Large-Eddy Simulation: Guidelines for its application to planetary boundary layer research," J.C. Wyngaard, ed., Bull. Amer. Meteor. Soc. 66, 1552.
  • 1987: Notice of 1986 retirement. Bull. Amer. Meteor. Soc. 68 (Oct.), 1295.
  • 1988: Concentration fluctuations within a laboratory convectively mixed layer,in Lectures in Air Pollution Modeling, 357-384 (Chap. 8), A. Venkatram and J.C.Wyngaard, eds.; Boston, Amer. Meteor. Soc. (with G.E. Willis).
  • 1986: Possible extraterrestrial strategy for Earth. Quart. J. Roy. Astron. Soc. 27, 94-101.
  • 1987: Examination of the embargo hypothesis as an explanation for the Great Silence. J. British Interplanetary Soc. 40, 373-379.
  • 1987: Extraterrestrial Communications. J. Communication 37, 181-184.
  • 1990: Celestial Teachings: Emergence of the True Testament of Jmmanuel (Jesus).Mill Spring, NC: Wild Flower Press. 1-800-366-0264.
  • 1992: The Problems of New Testament Gospel Origins. Lewiston, NY: Mellen Press (Mellen University Research Press; see www.mellenpress.com).
  • 1994: Jesus in India: A Reexamination of Jesus' Asian Traditions in the Light of Evidence Supporting Reincarnation.Bethesda, MD: International Scholars Publications.
  • 2001: Opinions and comments on W.C. Levengood and N.P. Talbott (1999) 'Dispersion of energies in worldwide crop formations,' Physiologia Plantarum 111, 125.
  • 2005: Inflation-theory implications for extraterrestrial visitation, J. British Interplanetary Soc. 58, 43-50. (J. Deardorff, B. Haisch, B. Maccabee and H.E. Puthoff)

My 5 or 6 UFO Sightings

Three Papers

Possible extraterrestrial strategy for Earth. Quart. J. Royal Astron. Soc., 27, pp. 94-101 (1986).

The arguments are reviewed which hold that our Galaxy is nearly saturated with extraterrestrial life forms, that our existence requires in hindsight that they were and are benevolent toward us, and that our lack of detection of them or communications from them implies that an embargo is established against us to prevent any premature knowledge of them. An inconsistency is detected, in that any sudden lifting of the embargo in a manner obvious to the public would cause societal chaos and possibly touch off a nuclear exchange, while any communications received via radio telescope would likely be either quickly confiscated by government agencies and not revealed to the public, or heavily censored. The inconsistency is that the advanced civilization should be expected to have planned some other strategy, if it is actually benevolent, experienced and intelligent.
It follows that any embargo not involving alien force must be a leaky one designed to allow a gradual disclosure of the alien message and its gradual acceptance on the part of the general public over a very long time scale. A possible strategy for their accomplishing this is proposed.

Examination of the embargo hypothesis as an explanation for the Great Silence. J. British Interplanetary Soc., 40, pp. 373-379 (1987).

The embargo or quarantine hypothesis for explaining the 'Great Silence' is reviewed and found to be more plausible than the view that, at most, we might expect to receive radio messages from some distant star. The latter hypothesis is shown to be compatible with extraterrestrial technologies only a few hundred years in advance of our own, whereas the embargo hypothesis more reasonably infers that they should be tens of thousands of years in advance and in control of any contact with humanity.
Reasons why the embargo hypothesis has received insufficient attention are presented: they involve failure to allow for the application of both greatly advanced alien technology and high ethical values by maturing societies of extraterrestrial intelligence. The implication of the embargo hypothesis for space development is that planets already harbouring diverse biota are ethically off-limits for exploitive colonisation.

Extraterrestrial communications. J. Communication, 37, pp. 181-184 (1987).

No abstract; but summary is as follows:

So far, the search for alien intelligence, in its concentration upon a radio message from the stars, has neglected to search right here on Earth and examine the UFO phenomenon. The prevailing scientific rationale responsible for this breakdown in logic fails to take into account the embargo hypothesis and Clarke's third law, which holds that the actions of advanced extraterrestrials would likely seem to us to defy the laws of physics

Short Bibliography

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