Papers by Calphysics Authors and Grantees

Quantum Vacuum and Inertial Reaction in Nonrelativistic QED
Hiroki Sunahata, Alfonso Rueda and Bernard Haisch, arXiv:1306.6036 [physics.genph] (2013).
Interaction of the Quantum Vacuum with an Accelerated Object and its Contribution to Inertia Reaction Force
Hiroki Sunahata, Ph.D. thesis, Claremont Graduate University and Calif. State Univ. Long Beach (2006).
Gravity and the Quantum Vacuum Inertia Hypothesis
Alfonso Rueda & Bernard Haisch, Annalen der Physik, Vol. 14, No. 8, 479498 (2005).
Review of Experimental Concepts for Studying the Quantum Vacuum Fields
E. W. Davis, V. L. Teofilo, B. Haisch, H. E. Puthoff, L. J. Nickisch, A. Rueda and D. C. Cole, Space Technology and Applications International Forum (STAIF 2006), p. 1390 (2006).
Analysis of Orbital Decay Time for the Classical Hydrogen Atom Interacting with Circularly Polarized Electromagnetic Radiation
Daniel C. Cole & Yi Zou, Physical Review E, 69, 016601, (2004).
Quantum Mechanical Ground State of Hydrogen Obtained from Classical Electrodynamics
Daniel C. Cole & Yi Zou, Physics Letters A, Vol. 317, No. 12, pp. 1420 (13 October 2003), quantph/0307154 (2003).
Update on an Electromagnetic Basis for Inertia, Gravitation, the Principle of Equivalence, Spin and Particle Mass Ratios
Bernard Haisch, Alfonso Rueda, L. J. Nickisch & Jules Mollere, in Amer. Inst. Physics Conf. Proc., Space Technology and Applications International Forum (STAIF2003), Ed. Mohamed S. ElGenk, pp. 922  931, grqc/0209016 (2003).
Connectivity and the Origin of Inertia
L. J. Nickisch & Jules Molere, preprint physics/0205086 (2002).
Geometrodynamics, Inertia and the Quantum Vacuum
Bernard Haisch & Alfonso Rueda, AIAA paper 20013360, presented at AIAA/ASME/SAE/ASEE Joint Propulsion Conference, Salt Lake City, July 812, (2001).
Inertial mass and the quantum vacuum fields
Bernard Haisch, Alfonso Rueda & York Dobyns, Annalen der Physik, 10, 393414 (2001).
Stochastic nonrelativistic approach to gravity as originating from vacuum zeropoint field van der Waals forces
Daniel C. Cole, Alfonso Rueda, Konn Danley, Phys. Rev. A, 63, 054101, (2001).
Gravitation as a Super SL(2,C) Gauge Theory
R. S. Tung, Proc. 9th Marcel Grossman Conf. (2001).
Quasilocal "Conserved Quantities"
R. S. Tung, Proc. 9th Marcel Grossman Conf. (2001).
Covariant Hamiltonian Boundary Conditions in General Relativity for Spatially Bounded Spacetime Regions
Stephen Arno & Roh S. Tung (2001).
Properties of the Symplectic Structure of General Relativity for Spatially Bounded Spacetime Regions
Stephen Arno & Roh S. Tung (2001).
ChernSimons Term for BF Theory and Gravitation as a Generalized Toplogocial Field Theory in Four Dimensions
H.Y. Guo, Y. Ling, R.S. Tung & Y.Z. Thang. (2002).
Hybrid Quintessence with an End or Quintessence from Branes and Large Dimensions
Edi Halyo, Stanford U.ITP0128 (2002).
De Sitter Entropy and Strings
Edi Halyo, Stanford U.ITP0131 (2001).
Universal Counting of Black Hole Entropy by Strings on the Stretched Horizon
Edi Halyo, Stanford U.ITP01xx (2002).
Strings and the Holographic Description of Asymptotically de Sitter Spaces
Edi Halyo, Stanford U.ITP0203 (2002).
Holographic Inflation
Edi Halyo, Stanford U.ITP0103 (2002).
Domain Walls with Strings Attached
Renata Kallosh, Sergey Prokushkin & Marina Shmakova, JHEP, accepted (2001).
Domain Walls, Black Holes, and Supersymmetric Quantum Mechanics
Klaus Behrndt, Sergei Gukov & Marina Shmakova, Nucl. Phys. B., 601, 49, (2001).
Oneloop corrections to the D3brane action
Marina Shmakova, Phys. Rev. D, 62, 104009, (2000).
Excision of Singularities by Stringy Domain Walls
Renata Kallosh, Thomas Mohaupt & Marina Shmakova, Stanford Univ. Rept. No. SUITP 00/27 (2000).
Partial Renormalization of the Stress Tensor FourPoint Function in N=4 SYM and AdS/CFT
B. Eden, A. Petkou, C. Schubert, E. Sokatchev, submitted to Nucl. Phys. B (2000).
Gravitational EnergyMomentum in the Tetrad and Quadratic Spinor Representations of General Relativity
R. S. Tung & J. M. Nester,
in Proc. Vigier III Symp. (Aug. 2125, 2000, U. C. Berkeley), Kluwer Acad. Press, in press, (2001).
Zeropoint field induced mass vs. QED mass renormalization
Giovanni Modanese, in Proc. 18th Advanced ICFA Beam Dynamics Workshop on "Quantum Aspects of Beam Physics", Capri, Italy,
October 1520, 2000, in press (2001).
The dipolar zeromodes of
Einstein action: An informal summary with some new issues
Giovanni Modanese, in Proc. Vigier III Symp. (Aug. 2125, 2000, U. C. Berkeley), Kluwer Acad. Press, in press, (2001).
Inertial mass and vacuum fluctuations in quantum field theory
Giovanni Modanese. (2000)
The Paradox of Virtual Dipoles in the Einstein Action
Giovanni Modanese, Phys. Rev. D, 62, 087502 (2000).
Large "Dipolar" Vacuum Fluctuations in Quantum Gravity
Giovanni Modanese, Nucl. Phys. B, Vol. 588, 419 (2000).
The Case for Inertia as a Vacuum Effect: a Reply to Woodward & Mahood
Y. Dobyns, A. Rueda & B.Haisch, Foundations of Physics, Vol. 30, No. 1, 59 (2000).
(NOTE — This paper discusses the differences between the quantum vacuum approach to inertia and a Machian approach.)
On the relation between a zeropointfieldinduced inertial effect and the Einsteinde Broglie formula
B. Haisch & A. Rueda, Physics Letters A, 268, 224, (2000).
Toward an Interstellar Mission: Zeroing in on the ZeroPointField Inertia Resonance
B. Haisch & A. Rueda, Space Technology and Applications International Forum (STAIF2000), Conference on Enabling Technology and Required Developments for Interstellar Missions, Amer. Inst. Phys. Conf. Publ. 504, p. 1047 (2000).
Earlier Scientific Publications on SED and Inertia

Electromagnetic Zero Point Field as Active Energy Source in the Intergalactic Medium
A. Rueda, H. Sunahata & B. Haisch, 35th AIAA/ASME/SAE/ASEE AIAA Joint Propulsion Conference, AIAA paper 992145, (1999).
Progess in Establishing a Connection Between the Electromagnetic ZeroPoint Field and Inertia
B. Haisch & A. Rueda, Space Technology and Applications International Forum99, American Institute of Physics Conference Proceedings 458, Mohammed S. ElGenk, ed., p. 988 (1999).
Inertial Mass Viewed as Reaction of the Vacuum to Accelerated Motion
A. Rueda & B. Haisch, Proc. NASA Breakthrough Propulsion Physics Workshop, NASA/CP1999208694, p. 65 (1999).
The ZeroPoint Field and the NASA Challenge to Create the Space Drive
B. Haisch & A. Rueda, Proc. NASA Breakthrough Propulsion Physics Workshop, NASA/CP1999208694, p. 55 (1999).
Advances in the Proposed Electromagnetic ZeroPoint Field Theory of Inertia
B. Haisch, A. Rueda & H. E. Puthoff, 34th AIAA/ASME/SAE/ASEE AIAA Joint Propulsion Conference, AIAA paper 983143,
(1998).
Contribution to inertial mass by reaction of the vacuum to
accelerated motion
A. Rueda & B. Haisch, Foundations of Physics, Vol. 28, No. 7, pp. 10571108 (1998).
Inertial mass as reaction of the vacuum to acccelerated
motion
A. Rueda & B. Haisch, Phys. Letters A, vol. 240, No. 3, pp. 115126, (1998).
An Electromagnetic Basis for Inertia and Gravitation: What are the Implications for 21st Century Physics and Technology
B. Haisch & A. Rueda, CP420, Space Technology and Applications International Forum (M. S.ElGenk, ed), DOE Conf. 960103, American Inst. of Physics, p. 1443 (1998).
The ZeroPoint Field and Inertia
B. Haisch & A. Rueda, in "Causality and Locality in Modern Physics," G. Hunter, S. Jeffers & J.P. Vigier (eds.), Kluwer Acad. Publ., pp. 171178, (1998).
Electromagnetic Vacuum and Inertial Mass
A. Rueda & B. Haisch, in "Causality and Locality in Modern Physics," G. Hunter, S. Jeffers & J.P. Vigier (eds.), Kluwer Acad. Publ., pp. 179186, (1998).
Physics of the ZeroPointField: Implications for Inertia, Gravitation and Mass
B. Haisch, A. Rueda & H.E. Puthoff, Speculations in Science & Technology, Vol. 20, pp. 99–114, (1997).
Reply to Michel's "Comment on ZeroPoint Fluctuations and the Cosmological Constant"
B. Haisch & A. Rueda, Astrophys. J., 488, 563, (1997).
Quantum and classical statistics of the electromagnetic
zeropointfield
M. Ibison & B. Haisch, Physical Review A, 54, pp. 27372744, (1996).
Vacuum ZeroPoint Field Pressure Instability in Astrophysical Plasmas and the Formation of
Cosmic Voids
A. Rueda, B. Haisch & D.C. Cole, Astrophysical Journal, Vol. 445, pp. 716 (1995).
Inertia as a zeropointfield Lorentz force
B. Haisch, A. Rueda
& H.E. Puthoff, Physical Review A, Vol. 49, No. 2, pp. 678694 (1994).
Extracting energy and heat from the vacuum
D. C. Cole
& H.E. Puthoff, Physical Review E, Vol. 48, No. 2, pp. 15621565 (1993).
Ground state of hydrogen as a zeropointfluctuationdetermined state
H.E. Puthoff, Physical Review D, Vol. 35, No. 10, pp. 32663269 (1987).
Extracting electrical energy from the vacuum by cohesion of charged foliated conductors
R. L. Forward, Physical Review B, Vol. 30, No. 4, pp. 17001702 (1984).