SEMINARS on the Extinction Shift Principle
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CURRENT TOPIC
Fundamental Mathematical Physics found to be Misapplied to Gravitational Lensing
BACKGROUND INFORMATION
Since gravitational lensing as suggested by General Relativity does not depend on the wavelength of light, then all emissions, regardless of wavelength should be equally lensed. The lensing effects that are apparent in the optical images of the proclaimed gravitational lensing regions are not as apparent in the images of the same regions outside of the visible spectrum.
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Abell Galaxy Cluster (Johns Hopkins, Hebrew Univ., STSI, NASA, Hubble Space Telescope) |
A Five Quasar Gravitational Lens in a Galaxy Cluster (Tel Aviv University, Caltech, ESA, NASA) |
Galaxy Cluster CL0024+1654 (Princeton, Lucent Technologies, Hubble Space Telescope, NASA) |
Research has shown that modern astronomical imaging techniques using charge-coupled devices (CCD's) simply amplify emissions that are both refracted and scattered by the interstellar and intergalactic refracting media. This light is essentially the weak background light seen only with the use of modern instruments equipped to detect the faint light scattered by the interstellar and intergalactic media, only recently to be noted in modern astronomy with the aid of CCD's. It is suggested that this scattered light often gives false alarms and gives rise to the illusion of gravitational lensing, as would be suggested by a direct interaction between gravitation and electromagnetism.

Time resolved images of stars orbiting about Sagittarius A*
collected from 1992 to 2006
Max-Planck-Institut für extraterrestrische Physik
ABSTRACT:
For decades now some very important fundament principles of mathematical
Physics have been incorrectly applied to the theory of gravitational
lensing or just simply ignored. This has lead to an erroneous
understanding the effects the gravitation of point-like masses should
have on rays of light as suggested by the light bending rule of General
Relativity. At least two very important fundamental principles of
mathematical Physics were hardly applied or not mentioned at all by the
researchers of gravitational lensing, namely the principle of Gauss' law
and the principle of optical reciprocity. The principle of Gauss' law
here is the analog of the principle of Gauss' law of Electromagnetism,
where a gaussian surface encloses an electric charge as opposed to a
gravitating mass. The Gauss' law simply states that the flux of the
gravitational field through the different surfaces enclosing the same
mass is constant. That means that the enclosed point masses are the only
sources of the field lines of gravitation. This together with the
principle of reciprocity is direct proof that the observer does not have
to be co-linearly aligned with the lens and the source in order to be
able to observe an event of gravitational lensing as predicted by the
light bending rule of General Relativity. Historically, the only
observable light bending effects on rays of light have been virtually
those effects that are due to an indirect, not a direct
interaction between the light rays and the gravitation. The thin
plasma atmosphere of the sun represents such an indirect interaction
between the gravitational field of the sun and the rays of light from
the stars. There is convincing observational evidence from Astrophysics
that a direct interaction between light and gravitation is yet to be
observed. All indications show that the microlensing concept is
merely a failed attempt to explain the lack of observation of macrolensing.
past SEMINAR events
Howard University Department of Physics and Astronomy, Thirkield Hall (physics building, RM 103) Washington, DC 20059: "Emission Theory Predicts No Direct Gravitational-Electromagnetism Interaction: New Astrophysical Evidence", Most recent Emission Theory, supported by astrophysical evidence at the galactic core of the Milk Way" Wednesday, February 28, 2007, 12:00 noon
McGregor Conference Center at Wayne State University, Conference: "Special Reference Frames and Prospects for Quantum Realism", to include: "Extinction Shift Principle; Most recent Emission Theory, supported by astrophysical evidence at the galactic core of the Milk Way" November 11, 2006 at 1:00pm, conference chair: Dr Robert French See: http://www.quantumrealism.net
The International Society for Optical Engineering (SPIE) Conference, San Diego, California, USA, 2 August 2005, Proceeding of SPIE Volume #5866, pp, 119-134, SESSION 4, Convention Center Room 6F Tuesday 8:30 to 10:15 am, Paradigms and Models, Chair: Ewan M. Wright, The Univ. of Arizona
{The photon and its measurability}
Howard University Department of Electrical and Computer Engineering, Washington, DC 2300 6th Street, NW, Room 3114, Mohamed Chouikha, Ph.D., Professor and Chair, February 3, 2004, at 12:40pm
University of the District of Columbia, Department of Chemistry & Physics, Building 44, Dr. Isodora Posey, Chairperson
Date: Thursday, October 23, 2003, Time: Refreshments 12:15pm, Seminar 12:30pm
Universität Karlsruhe, Germany at Gastdozentenhaus der Universität Karlsruhe on May 12, 2003, 10:00 - 17:00 Institut für Angewandte Mathematik II Veranstaltung der Europäischen Akademie - Neue Wissenschaft und Ethik {Organization of the European Academy - New Science and Ethics}
TOPICS
Extinction Shift Principle {Das Löschverschiebungsprinzip} E. Dowdye
The Universal Principle {Das Universalprinzip} Rolf Böttner
The Universal Principle {Das Universalprinzip} Alexandra Lène
for details click: http://www.universal-prinzip.de/gesamtframe1.htm
Alternative Kern-Modelle {Alternative Nuclear Model} Joachim Herbst
discussions on additional related theories
I am truly grateful to be honored by the academy this opportunity to present my Emission Theory and I am also eternally grateful for Prof. Dr. Edgar Kaucher's professionalism, scientific Gemütlichkeit and his in depth
of my Extinction Shift Principle
Also I am also deeply honored that my Emission Theory was chosen in 2006 as a research project for the bright graduate students of this renown university of Elite Status, die Elite-Universität Karlsruhe.
Past SEMINAR events(cont.)
Department of Physics, Grambling State University, Grambling, LA October 30, 2002, 12:00 noon
University of Alabama in Huntsville, Physics Colloquium 2002, Tuesday, October 29, 2002, UAH Optics Building: OB-234, Coffee & Cookies 2:15PM, Lecture 2:30PM, Q&A 3:20PM
North Carolina A & T State University, Greensboro, North Carolina, Department of Physics, September 26, 2001, 4:00pm
Lincoln University Physics Department, Lincoln University, Pennsylvania, November 8, 2001 at 4:00pm
Howard University Department of Electrical Engineering, Washington, DC Room 3114, October 30, 2001, 12:40pm
NASA Goddard Space Flight Center, Electro-Optics Branch Code 554 Greenbelt, MD February 8, 2001 11:00am - 12:00noon.
Howard University Department of Physics & Astronomy,
Washington, DC, Thirkield
Hall, Room 103, September 6, 2000 at 12:10 pm - 1:00 pm
FORMAT
of the SEMINAR Introduction Statement of the Problems Definition of Extinction Shift Principal Axioms Hypothetical vs Real World
Observer The Indistinguishability of Equivalent Waves Mathematical Proof and Observational Evidence Step-by-step Illustrations pertaining to the Extinction
Shift Principle Summary Questions and Comments Planned Experiment & Discussion
Excerpts from past Seminars
pdf file 14 View Graphs {English}
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1 |
Title Page |
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2 |
Definition of Extinction Shift {Interference Free} |
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3 |
Definition of Extinction Shift {with Interference} undisturbed case without interference |
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Definition of Extinction Shift {with Interference} Cont. re-emitted case with interfering window (secondary source) |
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Definition of Extinction Shift {tertiary, n-ary wave} Cont. re-emitted case with interfering window from tertiary source to n (large number) re-emitters |
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6 |
Definition of Extinction Shift {Gravitation} Vibrating/Modulated Mass Experiment. A hypothetical gravitational broadcast! |
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Definition of Extinction Shift {Gravitation} Cont. An indirect relay of a gravitational signal via a secondary re-emitted gravitational wave! |
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8 |
Principal Axiom 1 |
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9 |
Principal Axiom 2 |
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10 |
Principal Axiom 3 |
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11 |
Principal Axiom 4 |
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Principal Axiom 5 |
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Principal Axiom 6 |
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14 |
Invariance of the Wave Equation |
pdf file 8 View Graphs {Deutsch}
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1 |
Tital |
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2 |
Titalblatt |
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3 |
Zur Definition der Löschverschiebung |
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Zur Definition der Löschverschiebung im Faller der Interferenz |
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5 |
Zur Definition der Löschverschiebung im Faller der Interferenz (fortgesetzt) |
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Zur Invarianz der Wellengleichung {Invariance of the Wave Equation} |
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Effektive Masse {Effective Mass} |
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Transvers-Relative Zeitverschiebung {Transverse Relative Time Shift} |
| 9 | Periheldrehung des Merkurs {Mercury Perihelion Rotation} |