Carl H. Gibson
C.
WORK IN PROGRESS
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C1. Washburn, L. and C. H. Gibson, "Mixing Events in the Seasonal Thermocline during MILE: Intercomparison of Turbulence Sampling Techniques,"
for J. Geophys.
Res. (40 pages). In preparation (This article has not
been abandoned, merely postponed.
Libe Washburn analyzed the 1974 mixed layer
experiment MILE data for his PhD thesis with me, but discovered the results
of his analysis were so intensely controversial among oceanographers that he
requested we not submit the paper because it would interfere with his ambition
to pursue a career in oceanography.
Now that Libe has tenure at UC Santa Barbara
he has given me permission to publish our results showing dropsonde
sampling vastly underestimates the average dissipation rates in the mixed
layer due to fossil turbulence and intermittency effects. I intend to do so as soon as the RASP
results demonstrating the beamed zombie turbulence maser action BZTMA mixing
chimney mechanism have been published in mainstream
oceanography journals.) |
Journal Article |
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C2. Gibson, C. H. and L. Washburn,
"Signatures of Stirring, Mixing and Internal Waves in Horizontal
Temperature-Salinity Profiles."
In preparation (Same history as C1) |
Journal Article |
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C3. Schedvin,
J. C., C. H. Gibson and T. K. Deaton, "Preliminary Results of a US-USSR
Oceanic Microstructure Intercomparison
Experiment," for J. Phys. Oceanog. (51 pages). In preparation (Clear evidence of
fossil turbulence and intermittency effects are apparent in this paper,
repeatedly rejected by oceanographic reviewers from their misunderstandings
of stratified turbulence and fossil turbulence wave mechanisms and the basic
mechanism of turbulence itself. All turbulence is driven by inertial vortex forces in a
universally similar cascade from small scales to large (A35, A61, A102). John Schedvin
understood this from his careful PhD thesis work analyzing towed
microstructure measurements taken on the 1974 Dmitri Medelaev 11th cruise
comparing our work with Vadim Paka
and Rostislav Ozmidov tow
body measurements off the coast of Australia (A21). John was never allowed to
publish his key oceanographic work due to Òpeer reviewsÓ as short as ÒThis
paper is complete gibberishÓ; a review accepted and transmitted to me by a
JPO editor. Some of JohnÕs work
was published in a conference proceeding (A34) in 1980 before his untimely
death, but not in the oceanographic literature. I intend to some day see this critically important, and
pioneering, paper properly published in JohnÕs memory, preferably in JPO.) |
Journal
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C4. Gibson, C. H., Turbulence in Stratified Flow. In preparation (Same history as
C1, C2, C3.) |
Book |
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C5. Gibson, C. H. and R. M. Kerr,
"Evidence of Turbulent Mixing by the Rate-of-Strain", submitted to Phys. of Fluids (31 pages). AbandonedÉSee A49. |
Journal Article |
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C6. Gibson, C. H. and J. Imberger, "Formation of Turbulence on a Tilted Density Interface", for J. Fluid Mech., (31 pages). IN PREPARATION (requires acceptance by
referees and editors of three levels of controversy about turbulence, the
direction of the turbulence cascade, fossilization by both buoyancy and
Coriolis forces, and my universal similarity theories for all these states of
fossil turbulence.)
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Journal Article |
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C7. Bershadskii, A. and C. H. Gibson,
"Sweeping Interactions and Higher Order Turbulence Spectra," Phys. Rev. (1995) (12 pages). IN REVISION FROM SUBMITTED (same as C6) |
Journal
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C8. Bershadskii, A. and C. H. Gibson, "Sweeping
Interactions and Turbulence Intermittency," Phys. Lett. A (1995) (11 pages). IN REVISION FROM SUBMITTED (same as C6) |
Journal
Article |
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C9. Gibson, C. H., "Ocean Mixing and
KolmogorovÕs Intermittency Constant," Physics of Fluids (1995) (5 pages). IN REVISION FROM
SUBMITTED (same as C6) |
Journal
Article |
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C10. Gibson, C. H., "Fossils of Primordial
Turbulence and Non-turbulence at the "Schwarz Radii"—the Length
Scales of Condensation for Self-gravitating Fluid Matter", (34
pages). IN REVISION From SUBMITTED (same as C6) |
Journal
Article |
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C11. Tynan, C.
T., W. H. Thomas and C. H. Gibson, ÒThe Effects of Small-Scale Turbulence on
the Growth of Prorocentrum micans Ehrenberg,Ó
for Marine Ecology Progress Series,
1996 (20 pages). IN PREPARATION |
Journal Article |
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C12. Gibson, C. H. and Rudolph E. Schild,
"Theory and Observations of Galactic Dark Matter", IN REVISION From
SUBMITTED (Same as C13. Explains
why the MACHO, EROS and OGLE microlensing surveys have been unable to detect
planets as the galactic dark matter as shown by Schild 1996. These surveys assume the planets are
uniformly distributed and brown dwarf mass but they should actually be
Earth-mass and lognormally distributed within dense
clumps with a large intermittency constant that makes them virtually
undetectable (Gibson 1996, A80).
astro-ph/9904366 |
Journal
Article Los
Alamos archive http://xxx.lanl.gov |
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C13. Gibson, C. H. and Rudolph E. Schild, "Quasar-microlensing Versus Star-microlensing Evidence of Small Planetary
Mass Objects as Galactic Dark Matter", IN REVISION From SUBMITTED (Key paper to ApJ introducing the Gibson 1996
theory and Schild 1996 observations that the galactic dark matter is
Earth-mass primordial H-He
planets in million Solar-mass
clumps.
Scientific Editor Ned Wright of ApJ took 18 months
of emails to reject the paper
because my Schwarz gravitational
instability scales could not be derived by linear instability theory following the hydrodynamically obsolete theory of Jeans 1902). astro-ph/9904362 |
Journal
Article Los
Alamos archive http://xxx.lanl.gov |
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C14. Gibson, C. H., "The Fluid Mechanics
of Dark Matter Formation: Why does Jeans's (1902
& 1929) Theory Fail?" IN
REVISION From SUBMITTED (Same as C13. Referees reveal a basic
ignorance of collisional fluid
mechanics and fail to understand that self gravitational instability is absolute and non-linear, just as the
turbulence instability is
absolute and non-linear. Referees and Editors seem unable to distiguish between hydrodynamics and hydrostatics. Referees claim Ç pressure
support È will prevent
gravitational structure formation on scales smaller than the Jeans scale without understanding that this is
an irrelevant hydrostatics
argument. Viscosity,
turbulence and diffusivity are needed
to describe self gravitational
structure formation: collisional fluid mechanics concepts are apparently unknown or forgotten by the peer review system of present astrophysics/astronomy journals.) /astro-ph/9904365 |
Journal
Article Los
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C15.
Gibson, C. H. and Rudolph E. Schild, "Clumps of Hydrogenous Planetoids
as Galactic Dark Matter", IN
REVISION From SUBMITTED (Same as C13 and C14) /astro-ph/9908335 |
Journal
Article Los
Alamos archive http://xxx.lanl.gov |
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C16. Gibson, C. H., "Primordial Viscosity,
Diffusivity, Reynolds Numbers, Sound and Turbulence in the Beginnings of Gravitational
Structure Formation",
IN REVISION From SUBMITTED (Same as C13 and C14) astro-ph/9911264 |
Journal
Article Los
Alamos archive http://xxx.lanl.gov |
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C17. Gibson, C. H., "The First
Turbulence", Flow: Turbulence and
Combustion, 2004. [published SEE ITEM A.97] astro-ph/0101061 |
Journal
Article Los
Alamos archive http://xxx.lanl.gov |
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C18. Gibson, C. H. and R.
E. Schild, "Interpretation of the Tadpole VV29 Merging Galaxy System
using Hydro-Gravitational Theory", The
Astronomical Journal. SUBMITTED in
revision (Same as C13 and C14)
astro-ph/0210583
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Journal
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Alamos archive http://xxx.lanl.gov |
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+C19. Gibson, C. H. and R.
E. Schild, "Interpretation of the Stephan
Quintet Galaxy Cluster using Hydro-Gravitational Theory", The Astronomical Journal. SUBMITTED in revision (Same
as C13 and C14) astro-ph/0304107
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Journal
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Alamos archive http://xxx.lanl.gov |
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C20. Gibson, C. H. and R.
E. Schild, ÒEvidence for Hydro-Gravitational
Structure Formation Theory versus Cold-Dark-Matter,
Hierarchical-Clustering, and Jeans 1902Ó, The Astronomical Journal.
SUBMITTED in revision (Same as C13 and C14) astro-ph/0304483
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Journal
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Alamos archive http://xxx.lanl.gov |
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C21. Gibson, C. H. and
Rudolph E. Schild, ÒInterpretation of the Helix
Planetary Nebula using Hydro-Gravitational TheoryÓ, The Astronomical Journal. SUBMITTED in revison
(Same as C13 and C14) astro-ph/0306467 |
Journal
Article Los
Alamos archive http://xxx.lanl.gov |
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C22. Gibson, C. H., V. G. Bondur, R. N. Keeler, P-T. Leung, ÒRemote Sensing of
Submerged Oceanic Turbulence and Fossil TurbulenceÓ, submitted JGR-Oceans, 2005. published in IJDF 2006, see A103 |
Journal
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C23. Gibson, C. H., V. G.
Bondur, R. N. Keeler, ÒEnergetics
of the Beamed Zombie Turbulence Maser Action Mechanism for Remote Detection
of Submerged Oceanic TurbulenceÓ, submitted JGR-Oceans, 2005. published in JAFM
2008, see A108 |
Journal
Article |
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+++C24. Schild, R. E. and Gibson, C. H., ÒGoodness in the axis of evilÓ (submitted to ApJ
Letters, with typical outrageous Òpeer reviewÓ referee response, with Dr. SchildÕs reply posted at http://maeresearch.ucsd.edu/~cgibson/Documents2007/ReplyToReferee.html
(+copy attached). The axis of
evil is an unexpected spin axis reflecting fossil big bang turbulence. Evidence appears in the spin of the
Milky Way, the solar system, all local galaxies, and in the cosmic microwave
background spherical harmonic directions of low order; eg.
dipole, quadrapole
etc. Recently a ÒDark FlowÓ of
x-ray galaxy clusters toward the axis of evil has been observed that is
easily explained by hydro-gravitational-dynamics HGD theory from PGC
viscosity effects near a fossil vorticity turbulence remnant of a big bang
turbulence vortex line. See http://sdcc3.ucsd.edu/~ir118/MAE192F08/MAE192F08Oct15.pdf
(+copy attached)). arXiv:0802.3229
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+C25. Gibson, C. H. and R.
E. Schild, ÒInterpretation of the Stephan Quintet Galaxy Cluster using
Hydro-Gravitational-Dynamics: Viscosity and FragmentationÓ, arXiv:0710.5449
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Journal
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+C26. Gibson, C. H. and R. E. Schild, ÒInterpretation
of the Helix Planetary Nebula using Hydro-Gravitational-Dynamics: Planets and
Dark EnergyÓ, arXiv:astro-ph/0701474
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Journal
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+C27. Gibson, C. H., ÒThe Fluid Mechanics
of Gravitational Structure FormationÓ, arXiv:astro-ph/0610628
(submitted to ApJ Letters, still in review)
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Journal
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+C28. Gibson, C. H., Nieuwenhuizen,
T. M. and Schild, R. E., ÒStructure formation in the early Universe from
fluid mechanicsÓ, for Europhysics Letters, arXiv:0809.2330v1
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Journal
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+C29. Gibson, C. H., Nieuwenhuizen,
T. M. and Schild, R. E., ÒHydrodynamics of Gravitational Structure Formation
in the Early UniverseÓ, for Physica D (special
issue on Turbulence and Flow in honor of K. Sreenivasan), arXiv:0809.2330v2 Latest version, with letter of transmission.
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+C30. Nieuwenhuizen,
T. M., Gibson, C. H. and Schild, R. E., ÒOn the nature of baryonic dark
matterÓ, for Physical Review Letters.
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Journal
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+C31. Schild, R. E., Gibson, C. H.,
ÒTurbulent formation of protogalaxies at the end of the plasma epochÓ
[Submitted to JAFM] |
Journal
Article |
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+C32. Gibson, C. H., Schild, R. E., Evolution
of proto-galaxy-clusters to their present form [Submitted to JAFM] |
Journal
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