5.
Rose, “The Flying Saucer.”
6.
Brown, U.S.
patent 2,949,550.
7.
J.
Mullins, “Plasma Magic,”
New Scientist
, October 28, 2000.
Eprint at:
www.newscientist.com/article/mg16822624.000-plasma-magic.html
.
8.
Scott, “Black World Engineers,” 66–67.
9.
A.
Basiago, “Dreamland and the CIA,” MUFON
UFO Journal
(July 1992): 10–12.
10.
T.
Good,
Alien Contact: Top-Secret UFO Files Revealed
(New York: William Morrow & Co., 1991), 208.
11.
Scott, “Black World Engineers.”
12.
Mullins, “Plasma Magic.”
13.
Ibid.
14.
T.
T.
Brown, U.S.
patent 3,022,430.
15.
W.
B.
Scott,
Inside the Stealth Bomber
(New York: Tab/Aero Books, 1991), 165.
16.
J.-P.
Petit, “Les Mystéres du B2” (January 17, 2003).
Eprint at:
www.jp-petit.org/nouv_f/B2/B2_7.htm
.
17.
Scott, “Black World Engineers.”
18.
R.
Boylan, “B-2 Stealth Bomber as Antigravity Craft.”
Eprint at:
www.drboylan.com/waregrv2.html
.
19.
P.
A.
LaViolette, “The U.S.
Antigravity Squadron,” Proceedings of the International Symposium on New Energy, Denver, IANS, 1993.
Reprinted in T.
Valone, ed.
Electrogravitics Systems: Reports on a New Propulsion Methodology
(Washington, D.C.: Integrity Research Institute, 1994).
6.
GRAVITY BEAM PROPULSION
1.
G.
Vassilatos,
Secrets of Cold War Technology: Project HAARP and Beyond
(Bayside, Calif.: Borderland Sciences, 1996), 26.
2.
Ibid., 33.
3.
Ibid., 55.
4.
Ibid., 31.
5.
E.
Podkletnov and G.
Modanese, “Impulse Gravity Generator Based on Charged YBa2Cu3O7-y Superconductor with Composite Crystal Structure,” August 2001.
Eprint at:
http://arXiv.org/abs/physics/0108005
.
6.
Ibid.
7.
E.
Podkletnov and G.
Modanese, “Investigation of High Voltage Discharges in Low Pressure Gases through Large Ceramic Superconducting Electrodes,”
Journal of Low Temperature Physics
132 (2003): 239–59.
Eprint at:
http://arXiv.org/abs/physics/0209051
.
8.
N.
Cook, “Antigravity Propulsion Comes out of the Closet,”
Jane’s Defense Weekly
38 (July 29, 2002).
9.
Podkletnov and Modanese, 2001; Podkletnov and Modanese, 2003.
10.
O.
Jefimenko,
Causality, Electromagnetic Induction and Gravitation
(Star City, W.
Va.: Electret Scientific Co.), 29.
11.
Cook, “Antigravity Propulsion.”
12.
N.
Cook, “Airpower Electric,” in
Jane’s Defense Weekly
38 (July 24, 2002): 56–63.
13.
N.
Cook,
The Hunt for Zero-Point
(New York: Random House, 2003).
14.
N.
Cook, “Antigravity Propulsion.”
15.
P.
A.
LaViolette to E.
Podkletnov, e-mail, June 11, 2003.
16.
E.
Podkletnov to P.
A.
LaViolette, e-mail, June 11, 2003.
17.
E.
Podkletnov, “Short Review of the Book ‘Subquantum Kinetics’ by Paul LaViolette,”
Infinite Energy
54(9) (2004): 42.
18.
LaViolette, “Introduction to Subquantum Kinetics: II,” 295–328.
19.
LaViolette,
Subquantum Kinetics
, 121–22.
20.
E.
Podkletnov, personal communication with the author, July 2003.
21.
P.
A.
LaViolette to E.
Podkletnov, e-mail, December 22, 2007.
22.
E.
Podkletnov to P.
A.
LaViolette, e-mail, December 25, 2007.
23.
E.
Podkletnov to P.
A.
LaViolette, e-mail, June 11, 2003.
24.
E.
Podkletnov to P.
A.
LaViolette, e-mail, December 29, 2007.
25.
A.
G.
Obolensky, “The Mechanics of Time,”
in Proceedings of the 1988 International Tesla Symposium
, S.
Elswick, ed.
(Colorado Springs: International Tesla Society, 1988), 4.25–4.40.
26.
P.
A.
LaViolette, “Galactic Explosions, Cosmic Dust Invasions, and Climatic Change” (Ph.D.
dissertation, Portland State University, 1983), appendix D.
27.
A.
G.
Obolensky and P.
A.
LaViolette, paper in preparation.
7.
PROJECT SKYVAULT
1.
J.
B.
Pendry and D.
R.
Smith, “Reversing Light with Negative Refraction,”
Physics Today
, 57(6) (2004): 37–43.
Eprint at:
www.physicstoday.org/vol-57/iss-6/p37.html
.
2.
Ibid., “The Quest for the Superlens,”
Scientific American
(July 2006): 61–67.
3.
T.
Kasagi, T.
Tsutaoka, and K.
Hatakeyama, “Negative Permeability Spectra in Permalloy Granular Composite Materials,” in
American Institute of Physics
, April 25, 2006.
Eprint at:
http://link.aip.org/link/?APPLAB/88/172502/1
.
4.
J.
B.
Pendry, e-mail communication with the author, July 9, 2006.
5.
V.
G.
Veselago, “The Electrodynamics of Substances with Simultaneously Negative Values of ε and µ,” in
Soviet Physics Uspekhi
10 (1968): 509–14.
Originally published in Russian in
Uspekhi Fizicheskikh Nauk
92 (1967): 517–26.
6.
R.
A.
Shelby, D.
R.
Smith, and S.
Schultz, “Experimental Verification of a Negative Index of Refraction,”
Science
292 (2001): 77–79.
Eprint at:
www.sciencemag.org/cgi/content/abstract/292/5514/77
.
7.
Pendry and Smith, “Reversing Light,” 37–43.
8.
Pendry and Smith, “Quest for the Superlens,” 61–67.
9.
R.
Shelby, et al., “Microwave Transmission through a Two-Dimensional Left-Handed Metamaterial,”
Applied Physics Letters
, 78(4) (2001): 489–91, fig.
1.
10.
S.
T.
Chui, “Negative Refraction in Anisotropic Composites,”
Bulletin of the American Physical Society
, March meeting, 2004.
Abstract at:
http://flux.aps.org/meetings/YR04/MAR04/baps/abs/S6590001.html
.
11.
Brown, U.S.
patent 3,187,206.
12.
Y.
Zhang, et al., “Total Negative Refraction in Real Crystals for Ballistic Electrons and Light,”
Physical Review Letters
91 (2003), no.
157404;
http://flux.aps.org/meetings/YR04/MAR04/baps/abs/S6590001.html
.
13.
Defense Sciences Office, Defense Advanced Research Projects Agency, Thrust Area, Materials, Novel Materials and Material Processes, Negative Index Materials Program.
Eprint at:
www.darpa.mil/dso/thrusts/materials/novelmat/nim/index.htm
.
Accessed January 11, 2008.
Extract quotation taken from a previous DSO internet posting that is no longer accessible.
14.
S.
G.
Dimitriou, “Propulsive Effect on a Massive Plane Capacitor Driven by Slope-Asymmetric Pulses” (unpublished paper).
Eprint at:
http://jnaudin.free.fr/stvdmdoc/stvcap.htm
.
15.
S.
G.
Dimitriou, “Efforts in Developing Upward and Directional Thrust” (paper presented at the Propelantless Propulsion Conference, University of Sussex, January 2001).
Eprint at:
http://jnaudin.free.fr/stvexp/html/stvrxp1a.htm
.
16.
Ibid., “Propulsive Effect on Two Capacitors Driven by Slope-Asymmetrical Pulses Experiment” (unpublished paper, March 2001).
Eprint at:
http://jnaudin.free.fr/stvexp/html/stv2caps.htm
.
17.
Ibid., “Radiation Phenomena of Specially Shaped Current Pulses” (master’s thesis, Department of Electrical Engineering, University of Manchester, 1994).
18.
Vassilatos,
Secrets of Cold War Technology
, 208.
19.
E.
C.
Okress, et al., “Design and Performance of a High Power Pulsed Magnetron,” 1956 International Electron Devices, meeting 2, p.
8.
20.
K.
Harkay, “Simulation Investigations of the Longitudinal Sawtooth Instability at SURF,” in
Proceedings of the 2001 Particle Accelerator Conference
(2001): 1918–20.
Eprint at:
http://accelconf.web.cern.ch/accelconf/p01/PAPERS/TPPH106.pdf
.
21.
National Materials Advisory Board,
Materials for High-Temperature Semiconductor Devices
(1995) (Washington, D.C., National Academy of Sciences, 2006), 93.
22.
L.
Yuan, et al., “IMPATT Diode Microwave Oscillators in Silicon Carbide,”
Purdue University School of Engineering Annual Research Summary: July 1 1999–June 30, 2000
.
Eprint at:
http://engineering.purdue.edu/ECE/Research/ARS/ARS2001/PART_I/Section7/7_12.whtml
.
23.
D.
M.
Goebel, et al., “High-Power Microwave Source Based on an Unmagnetized Backward-Wave Oscillator,”
IEEE Transactions on Plasma Science
22(5) (October 1994): 547–53.
24.
J.
McClain and N.
Wootan, “An Introduction to the Magnetic Resonance Amplifier.”
Eprint at:
www.rexresearch.com/mra/1mra.htm
.
25.
J.
McClain, “The Magnetic Resonance Amplifier: Description of Operation.”
Eprint at:
www.rexresearch.com/mra/1mra.htm
.
26.
J.
McClain and N.
Wootan, “New ZPE Breakthru—Magnetic Resonance Amplifier.”
Eprint at:
www.rexresearch.com/mra/1mra.htm
.