Hal Puthoff

Harold E. Puthoff

Founder, President & CEO

Articles:

  • H. E. Puthoff, “Electromagnetic potentials basis for energy density and power flux,” Eur. J. Phys. 37 (2016).
  • Link
  • H.E. Puthoff, ”Quantum ground states as equilibrium particle-vacuum interaction states,” Quant. Stud.: Math. Found. 3 (1), 5-10 (2016).
  • Link
  • H. E. Puthoff, “Linerarized turbulent fluid flow as an analog model for linearized general relativity (gravitoelectromagnetism)”.
  • Link
  • H. E. Puthoff, “Advanced space propulsion based on vacuum (spacetime metric) engineering,” Jour. Brit. Interplanetary Soc. 63 (3), 82-89 (2010).
  • Link
  • E. W. Davis and H. E. Puthoff, “On extracting energy from the quantum vacuum,” in M. G. Millis and E. W. Davis (eds.) Frontiers of Propulsion Science (American Institute of Aeronautics and Astronautics, Inc., Reston, VA, 2009) pp. 569-603.
  • H. E. Puthoff, “Casimir vacuum energy and the semiclassical electron,”Int. J. Theor. Phys. 46, ).
  • Link
  • H. E. Puthoff, C. Maccone and E. W. Davis, “Levi-Civita effect in the polarizable Vacuum (PV) representation of general relativity,” Gen. Rel. and Grav. 37, 483-489 (2005).
  • Link
  • H. E. Puthoff, “Physics and metaphysics as co-emergent phenomena,” in S. Savva (ed.) Life and Mind (Trafford Publ., Victoria, BC, Canada, 2006).
  • Davis, E. W. and Puthoff, H. E. (2006), “Experimental Concepts for Generating Negative Energy in the Lab,” Proc. of the STAIF-2006: 3rd Symposium on New Frontiers and Future Concepts, AIP Conf. Proc. Vol. 813, ed. M. S. El-Genk, American Inst. of Physics Press, Melville, NY, pp. 1362-1373.
  • Link
  • J. Deardorff, B. Haisch, B. Maccabee and H. E. Puthoff, “Inflation-theory implications for extraterrestrial visitation,” Jour. Brit. Interplanetary Soc. 58, 43-50 (2005).
  • Link
  • H. E. Puthoff and M. Ibison, “Polarizable vacuum ‘metric engineering’ approach to GR-type effects,” Proc. Gravitational Wave Conf., MITRE Corp., McLean, VA (2003).
  • Link
  • H. E. Puthoff, “Polarizable-vacuum (PV) approach to general relativity,” Found. Phys. 32, 927-943 (2002).
  • Link
  • H. E. Puthoff, “Polarizable-Vacuum approach to general relativity,” in R. L. Amoroso, G. Hunter, M. Kafatos, and J.-P. Vigier (eds.) Gravitation and Cosmology: From the Hubble Radius to the Planck Scale (Kluwer Academic Publ., Dordrecht, the Netherlands, 2002) pp. 431-446.
  • H. E. Puthoff, “Searching for the Universal Matrix in Metaphysics,” Research News and Opportunities in Science and Theology 2, No. 8, 22 (Templeton Foundation Press, April 2002).
  • Link
  • H. E. Puthoff, S. R. Little and M. Ibison, “Engineering the zero-point field and polarizable vacuum for interstellar flight,” Jour. Brit. Interplanetary Soc. (JBIS) 55, 137 (2002).
  • Link
  • M. Ibison and H. E. Puthoff, “Relativistic integro-differential form of the Lorentz-Dirac equation in 3D without runaways,” Jour. Phys. A: Math. Gen. 34, 3421 (2001).
  • Link
  • H. E. Puthoff, “CIA-initiated remote viewing program at Stanford Research Institute,” The Intelligencer – Jour. of U.S. Intelligence Studies 12, 60 (Summer 2001).
  • Link
  • M. Ibison, H. E. Puthoff and S. R. Little, “The speed of gravity revisited”
  • Link
  • A. C. Holt, E. W. Davis and H.E. Puthoff, “Space testing of electromagnetically sensitive materials for breakthrough propulsion physics,” Pres. 35th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, Los Angeles, CA (20-24 June 1999).
  • Link
  • H. E. Puthoff and M. A. Piestrup, “On the possibility of charge confinement by van der Waals/Casimir-type forces
  • Link
  • B. Haisch, A. Rueda and H. E. Puthoff, “Advances in the proposed electromagnetic zero-point field theory of inertia,” Pres. 34th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, Cleveland, OH (13-15 July 1998).
  • Link
  • M. A. Piestrup, H. E. Puthoff and P. J. Ebert, “Correlated emission of electrons,” Gal. Electrodynamics 9, 43 (1998).
  • H. E. Puthoff, “Can the vacuum be engineered for spaceflight applications? Overview of theory and experiments,” Jour. Sci. Exploration 12, 295 (1998).
  • Link
  • M. A. Piestrup, H. E. Puthoff, and P. J. Ebert, “Measurement of multiple-electron emission in single field-emission events,” J. Appl. Phys. 82, 5862 (1997).
  • Link
  • H. E. Puthoff, “The new vision in physics and cosmology,” State of the World Forum, San Francisco (Nov. 4-9, 1997).
  • H. E. Puthoff, “Space propulsion: Can empty space itself provide a solution?” Ad Astra 9 (National Space Society), 42 (Jan/Feb 1997).
  • B. Haisch, A. Rueda, and H. E. Puthoff. “Physics of the zero-point field: Implications for inertia, gravitation and mass,” Spec. in Sci. and Technology 20, 99 (1997).
  • Link
  • H. E. Puthoff, “SETI, the velocity-of-light limitation, and the Alcubierre warp drive: an integrating overview,” Physics Essays 9, 156 (1996).
  • Link
  • B. Haisch, A. Rueda, and H. E. Puthoff, “Beyond E = mc2,” The Sciences (NY Acad. of Sciences) 34, 26 (Nov/Dec 1994).
  • Link
  • B. Haisch, A. Rueda, and H. E. Puthoff, “Inertia as a zero-point field Lorentz force,” Phys. Rev. A 49, 678 (1994). See also Science 263, 612 (1994).
  • Link
  • D. C. Cole and H. E. Puthoff, “Extracting energy and heat from the vacuum,” Phys. Rev. E 48,1562 (1993). See also Fusion Facts 5, No. 3, 1 (1993).
  • Link
  • H. E. Puthoff, “On the feasibility of converting vacuum electromagnetic energy to useful form,” Intern’l Workshop on the Zeropoint Electromagnetic Field, Cuernavaca, Mexico, March 29 – April 2, 1993.
  • H. E. Puthoff, “Zero-point energy: an introduction,” Fusion Facts 3, No. 3, 1 (1991).
  • H. E. Puthoff, “The energetic vacuum: implications for energy research,” Spec. in Sci. and Technology 13, 247 (1990).
  • H. E. Puthoff, “Everything for nothing,” New Sci. 127, 52 (28 July 1990).
  • Link
  • H. E. Puthoff, “On the source of vacuum electromagnetic zero-point Energy,” Phys. Rev. A 40, 4857 (1989); Errata and Comments, Phys. Rev. A 44, 3382, 3385 (1991).
  • Link
    Link
    Link
  • H. E. Puthoff, “Gravity as a zero-point-fluctuation force,” Phys. Rev. A 39, 2333 (1989); Phys. Rev A 47, 3454 (1993).
  • Link
    Link
  • H. E. Puthoff, “Zero-point fluctuations of the vacuum as the source of atomic stability and the gravitational interaction,” Proc. of the British Soc. for the Philosophy of Science Intern’l Conf. “Physical Interpretations of Relativity Theory,” Imperial College, London, ed. M. C. Duffy (Sunderland Polytechnic, 1988).
  • H. E. Puthoff, “Ground state of hydrogen as a zero-point-fluctuation-determined state,” Phys. Rev. D 35, 3266 (1987).
  • Link
  • H. E. Puthoff, R. Targ and E. May, “Experimental psi research: Implication for physics,” in R. G. Jahn (ed.), The Role of Consciousness in the Physical World: AAAS Selected Symposium 57 (Westview Press, Boulder, CO, 1981).
  • H. E. Puthoff and R. Targ, “A perceptual channel for information transfer over kilometer distances: historical perspective and recent research,” Proc. IEEE 64, 329 (1976).
  • Link
  • R. Targ and H. E. Puthoff, “Information transmission under conditions of sensory shielding,” Nature 252, 602 (1974).
  • Link
  • M. A. Piestrup, R. H. Pantell, H. E. Puthoff and G. B. Rothbart, “Cerenkov radiation as a source of ultraviolet radiation,” Jour. Appl. Phys. 44, 5160 (1973).
  • Link
  • D. L. Hecht, W. L. Bond, R. H. Pantell and H. E. Puthoff, “Dye lasers with ultrafast transverse flow,” IEEE Jour. Quant. Elect. QE-8, 15 (1972).
  • Link
  • E. Amzallag, T. S. Chang, B. C. Johnson, R. H. Pantell and H. E. Puthoff, “Stimulated Raman and polariton scattering in LiIO3,” Jour. Appl. Phys. 42, 3251 (1971).
  • Link
  • B. C. Johnson, H. E. Puthoff, J. Soo Hoo and S. S. Sussman, “Power and linewidth of tunable stimulated far IR emission in LiNbO3,” Appl. Phys. Lett. 18, 181 (1970).
  • Link
  • S. S. Sussman, B. C. Johnson, J. M. Yarborough, H. E. Puthoff, R. H. Pantell and J. Soo Hoo, “A new source of tunable optical and infrared radiation,” Proc. Polytechnic Inst. of Brooklyn Intern’l Symposium on Submillimeter Waves (Polytechnic Press, Brooklyn, 1970).
  • S. I. Wax, M. Chodorow and H. E. Puthoff, “Optical damage in KDP,” Appl. Phys. Lett. 16 (1970).
  • Link
  • J. M. Yarborough, S. S. Sussman, H. E. Puthoff, R. H. Pantell and B. C. Johnson, “Efficient tunable optical emission from LiNbO3 without a resonator,” Appl. Phys. Lett. 15, 102 (1969).
  • Link
  • J. Gelbwachs, R. H. Pantell, H. E. Puthoff and J. M. Yarborough, “A tunable stimulated Raman oscillator,” Appl. Phys. Lett. 14, 258 (1969).
  • Link
  • R. H. Pantell, G. Soncini and H. E. Puthoff, “Stimulated photon-electron scattering,” IEEE Jour. Quant. Elect. QE-4, 905 (1968).
  • Link
  • R. H. Pantell, B. G. Huth and H. E. Puthoff, “Generation of non-threshold second Stokes using an off-axis resonator,” IEEE Jour. Quant. Elect. QE-4, 41 (1968).
  • Link
  • H. E. Puthoff, R. H. Pantell, B. G. Huth and M. A. Chacon, “Near-forward Raman scattering in LiNbO3,” Jour. Appl. Phys. 39, 2144 (1968).
  • Link
  • R. H. Pantell, F. Pradere, J. Hanus and H. E. Puthoff, “Theoretical and experimental values for two, three, and four-photon absorptions,” Jour. Chem. Phys. 46, 3507 (1967).
  • Link
  • H. E. Puthoff, “The stimulated Raman Effect and its application as a tunable laser,” Ph.D. Dissertation, Stanford University (June 1967).
  • Link
  • B. G. Huth, N. V. Karlov, R. H. Pantell and H. E. Puthoff, “A quantitative study of the stimulated Raman effect using an off-axis resonator,” IEEE Jour. Quant. Elect. QE-2, 763 (1966).
  • Link
  • B. G. Huth, N. V. Karlov, R. H. Pantell and H. E. Puthoff, “Characteristics of the stimulated Raman effect in an external resonator,” Proc. Sixth Intern’l Conf. on Microwave and Optical Generation and Amplification, Cambridge (Sept. 1966).
  • R. H. Pantell, B. G. Huth, H. E. Puthoff and R. L. Kohn, “Mode coupling in an external Raman resonator,” Appl. Phys. Lett. 9, 104 (1966).
  • Link
  • H. E. Puthoff, R. H. Pantell and B. G. Huth, “Tunability of the Raman laser,” Jour. Appl. Phys. 37, 860 (1966).
  • Link
  • R. H. Pantell and H. E. Puthoff, “A proposed novel method for obtaining a non-spiking pulsed laser,” Proc. IEEE 53, 295 (1965).
  • Link
  • J. T. Tippett and H. E. Puthoff, “Optical computers approach reality,” Electronics 36, 72 (May 1963); also in Optoelectronic Devices and Circuits, ed. S. Weber (McGraw-Hill, New York, 1964).
  • J. T. Tippett and H. E. Puthoff, “The status of optical logic elements for nanosecond computer systems,” NSA Tech. Jour. 8 (1963); Proc. Pacific Computer Conf., Pasadena (March 1963).
  • H. E. Puthoff, “Scaling matrix for the analog computer,” NSA Tech. Jour. 7 (1962).
  • A. D. Sutherland, H. F. Renkiewicz, H. E. Puthoff and D. E. Countiss, “On the use of periodic electrostatic focusing in klystrons,” Proc. Intern’l Congress on Microwave Tubes, Munich (June 1960).
  • H. E. Puthoff, “Crossed-field focusing of a hollow cylindrical electron beam,” M.S.E. Thesis, Univ. of Florida (January 1960). Also pres. 18th Conf. on Electron Tube Research, Seattle (June 1960).
  • Link
  • W. W. Peterson and H. E. Puthoff, “A theoretical study of ion plasma oscillations,” IRE Elect. Dev. ED-6, 372 (1959).
  • Link

Books:

  • R. Targ and H. E. Puthoff, Mind-Reach (Hampton Roads Publ., Charlottesville, VA, 2005).
  • Link
  • C. T. Tart, H, E, Puthoff and R. Targ, Mind at Large: Institute of Electrical and Electronic Engineers Symposia on the Nature of Extrasensory Perception (Praeger Publ., New York, 1979).
  • Link
  • R. H. Pantell and H.E. Puthoff, Fundamentals of Quantum Electronics (Wiley, New York, 1969); translated into Russian (Mir, Moscow, 1972), French (Dunod, Paris, 1973) and Chinese.
  • Link

Patents:

  • H. E. Puthoff, “Communication Method and Apparatus with Signals Comprising Scalar and Vector Potentials without Electromagnetic Fields,” Patent No. 5,845,220, issued 1 December 1998.
  • Link
  • H. E. Puthoff et al., “Electronic Devices Using Discrete, Contained Charged Particle Bundles and Sources of Same,” Patent No. 5,208,844, issued 4 May 1993.
  • Link
  • H. E. Puthoff and R. H. Pantell, “Tunable Raman Laser,” Patent No. 3,624,421, issued 30 November 1971.
  • Link