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Test 3: Dual GPS one-way Lightspeed tests outside the LASOF area.
The oscillating quantum vacuum frame will originate a difference in the (one way) light speed between two GPS satellites in space (up and down), measured parallel with the orbital propagation direction of the Earth around the sun and even parallel with other ether drift directions of the earth. ( measured e.g. by D. Miller see: http://www.orgonelab.org/miller.htm 1926 at mount Wilson, reported in: Review of modern physics 5, 203-242 (1933) called: “The Ether drift experiments and the determination of absolute motion of the earth” ). It is expected that those specific GPS locations are located more or less "outside" the Earthly LASOF ("Local A-symmetrical Oscillating Vacuum Frame": as explained before) double coned area, located on both sides of the Earth. With this experiment it is supposed to be possible to check the orbital speed of the Earth outside the Earthly LASOF reference frame and other ether drift directions of the Earth .
Explanation: GPS one-way light speed and other experiments seem to prove that there is no “one-way light speed difference” measurable in more or less perpendicular directions relative to surface of the Earth. At the same time, the quantum vacuum and the Earth should have a relative motion to each other which should be measurable as a so called “Ether drift”. However, it is assumed that massive objects like the Earth create their own isotropic light speed bubbles at both sides of massive objects, called LASOFs. These bubbles are supposed to have a double cone form with a common axis pointing always parallel to the orbital motion of the Earth around the sun with the Earth as the centre point.
However if we assume that there is also a second ether drift perpendicular to the equatorial plane of the Sun, (also measured by D. Miller) then a second LASOF double cone should be introduced. As a result it is proposed that ether drifts can at best be measured on top of mountains in horizontal directions.
It is suggested, that the Ether drift experiments of Dayton Miller, is an indication that the "LASOF" is acting to compensates for the "Ether drift" effects. If we accept that Dayton Miller ether drift experiments showed us the LOCAL reality, then we have to accept that there exist a measurable so called ether drift on earth, especially if we measure at the top of mountains, into horizontal directions.
Professor H. A. Munera and M. Allais, have shown us the way to interpret Millers measurements in a more conclusive way. See: http://www.ensmp.fr/aflb/AFLB-272/aflb272p463.htm http://allais.maurice.free.fr/English/media12-1.htm
Test 4: Large Sagnac Interferometer "LASOF crossing" variations, in contrast with SR..
A large Sagnac laser interferometer with enough "internal surface" or "light arm separation" designed to detect only subtle changes in the Orbit of the Earth could also be used for detecting subtle LOCAL lightspeed differences, in the up and down direction, within the individual light arm trajectories. This is an experiment which is already in action at the Canterbury Ultra-G Ring Laser Project at Canterbury University New Zealand (Christchurch, within the Cashmere Cavern, managed by professor Geoff Stedman). The Perimeter of 77 meter and the Area of 370 m2 seem to be just enough to measure the within 24 hours rotating "LASOF double cone" influences on the local lightspeed differences around the Earth. In fact this Large Sagnac Laser did already indicate some interesting anomalies, which should be connected to the local lightspeed differences originated by the LASOF. If Massive bodies drag the ether within a “double cone”, the lightspeed should be influenced exactly at the borders of that Double cone rotating with the rotation of the Earth within 24 hours over the surface of the Earth. Even the Moon should have such influences on Earth.
The LASOF double cone main axis, is supposed to have a stable orientation parallel with the orbital trajectory of the Earth around the Sun. As a consequence, subtle lightspeed variations are supposed to be measurable on locations placed between 45 degrees North or South Latitude if the Sagnac Laser is "crossing" these LASOF cone boundaries .
This effect is already measured by the Stedman team: see: the first Ultra-G results 1-14 January 2002 : http://www.phys.canterbury.ac.nz/research/ring_laser/UG0102.pdf The transition of 4 into 2 fold frequency shift variations each day, exactly on the 10th of January 2002, is in line with my so called LASOF (Local A-Symmetrical Oscillating vacuum Frame) boundary predictions, which predict lightspeed variations at small local distances.
This is clearly in contrast with special relativity.
A 4-fold lightspeed variation is supposed to be only possible, if the Ring Laser location (Christchurch NZ : Southern-Latitude: 43 degrees, which is 2 degrees within the maximal LASOF cone) is crossing 4 times a day one of the "LASOF Surface" boundaries, which are constantly in motion, due to the Earth’s rotation and revolution motions.
In summer and winter times, around 21 June and 21 December this seems to be the case for the Ultra-G apparatus, with respect to the recent measurement results.
However due to the orbital change in the rotational axis of the Earth, the number of "Location Crossings" with the LASOF boundaries will become 2 times a days, which is happening according to the measurement results at January 10. As a consequence we may expect, that during each year, the "transition" data which change the daily 4-fold variation into 2-fold frequency variation, will be on the 10th of January and the 10th of July. As a consequence, the "transition" data which change the daily 2-fold variation into 4-fold frequency variation, will be on the 1st of June and the 1st of December:.
The Moon LASOF.
If the Earth has a LASOF the Moon should have also one. If the moons position is exactly in “front or at the backside” of the Earth’s rotational motion around the Sun, the UG-1 Ring Laser in New Zealand, should give a clear “jump” inside the Sagnac signal for a period of several hours. This will happen First and Last quarter position of the Moon, when the moon is located within the ecliptic plane. This happened for instance on 31 august 2002. (The Stedman Team could normally be expected to publish these anomalous measurements in the near future.) However, if as Dayton Miller measured there is also an ether drift along the axis of the Solar planetary plane, then the moon influence on the Ultra Large Sagnac Laser measurements is expected to be also present at other quarter positions of the moon.
The oscillating quantum vacuum frame will originate a difference in the (one way) light speed between two GPS satellites in space (up and down), measured parallel with the orbital propagation direction of the Earth around the sun and even parallel with other ether drift directions of the earth. ( measured e.g. by D. Miller see: http://www.orgonelab.org/miller.htm 1926 at mount Wilson, reported in: Review of modern physics 5, 203-242 (1933) called: “The Ether drift experiments and the determination of absolute motion of the earth” ). It is expected that those specific GPS locations are located more or less "outside" the Earthly LASOF ("Local A-symmetrical Oscillating Vacuum Frame": as explained before) double coned area, located on both sides of the Earth. With this experiment it is supposed to be possible to check the orbital speed of the Earth outside the Earthly LASOF reference frame and other ether drift directions of the Earth .
Explanation: GPS one-way light speed and other experiments seem to prove that there is no “one-way light speed difference” measurable in more or less perpendicular directions relative to surface of the Earth. At the same time, the quantum vacuum and the Earth should have a relative motion to each other which should be measurable as a so called “Ether drift”. However, it is assumed that massive objects like the Earth create their own isotropic light speed bubbles at both sides of massive objects, called LASOFs. These bubbles are supposed to have a double cone form with a common axis pointing always parallel to the orbital motion of the Earth around the sun with the Earth as the centre point.
However if we assume that there is also a second ether drift perpendicular to the equatorial plane of the Sun, (also measured by D. Miller) then a second LASOF double cone should be introduced. As a result it is proposed that ether drifts can at best be measured on top of mountains in horizontal directions.
It is suggested, that the Ether drift experiments of Dayton Miller, is an indication that the "LASOF" is acting to compensates for the "Ether drift" effects. If we accept that Dayton Miller ether drift experiments showed us the LOCAL reality, then we have to accept that there exist a measurable so called ether drift on earth, especially if we measure at the top of mountains, into horizontal directions.
Professor H. A. Munera and M. Allais, have shown us the way to interpret Millers measurements in a more conclusive way. See: http://www.ensmp.fr/aflb/AFLB-272/aflb272p463.htm http://allais.maurice.free.fr/English/media12-1.htm
Test 4: Large Sagnac Interferometer "LASOF crossing" variations, in contrast with SR..
A large Sagnac laser interferometer with enough "internal surface" or "light arm separation" designed to detect only subtle changes in the Orbit of the Earth could also be used for detecting subtle LOCAL lightspeed differences, in the up and down direction, within the individual light arm trajectories. This is an experiment which is already in action at the Canterbury Ultra-G Ring Laser Project at Canterbury University New Zealand (Christchurch, within the Cashmere Cavern, managed by professor Geoff Stedman). The Perimeter of 77 meter and the Area of 370 m2 seem to be just enough to measure the within 24 hours rotating "LASOF double cone" influences on the local lightspeed differences around the Earth. In fact this Large Sagnac Laser did already indicate some interesting anomalies, which should be connected to the local lightspeed differences originated by the LASOF. If Massive bodies drag the ether within a “double cone”, the lightspeed should be influenced exactly at the borders of that Double cone rotating with the rotation of the Earth within 24 hours over the surface of the Earth. Even the Moon should have such influences on Earth.
The LASOF double cone main axis, is supposed to have a stable orientation parallel with the orbital trajectory of the Earth around the Sun. As a consequence, subtle lightspeed variations are supposed to be measurable on locations placed between 45 degrees North or South Latitude if the Sagnac Laser is "crossing" these LASOF cone boundaries .
This effect is already measured by the Stedman team: see: the first Ultra-G results 1-14 January 2002 : http://www.phys.canterbury.ac.nz/research/ring_laser/UG0102.pdf The transition of 4 into 2 fold frequency shift variations each day, exactly on the 10th of January 2002, is in line with my so called LASOF (Local A-Symmetrical Oscillating vacuum Frame) boundary predictions, which predict lightspeed variations at small local distances.
This is clearly in contrast with special relativity.
A 4-fold lightspeed variation is supposed to be only possible, if the Ring Laser location (Christchurch NZ : Southern-Latitude: 43 degrees, which is 2 degrees within the maximal LASOF cone) is crossing 4 times a day one of the "LASOF Surface" boundaries, which are constantly in motion, due to the Earth’s rotation and revolution motions.
In summer and winter times, around 21 June and 21 December this seems to be the case for the Ultra-G apparatus, with respect to the recent measurement results.
However due to the orbital change in the rotational axis of the Earth, the number of "Location Crossings" with the LASOF boundaries will become 2 times a days, which is happening according to the measurement results at January 10. As a consequence we may expect, that during each year, the "transition" data which change the daily 4-fold variation into 2-fold frequency variation, will be on the 10th of January and the 10th of July. As a consequence, the "transition" data which change the daily 2-fold variation into 4-fold frequency variation, will be on the 1st of June and the 1st of December:.
The Moon LASOF.
If the Earth has a LASOF the Moon should have also one. If the moons position is exactly in “front or at the backside” of the Earth’s rotational motion around the Sun, the UG-1 Ring Laser in New Zealand, should give a clear “jump” inside the Sagnac signal for a period of several hours. This will happen First and Last quarter position of the Moon, when the moon is located within the ecliptic plane. This happened for instance on 31 august 2002. (The Stedman Team could normally be expected to publish these anomalous measurements in the near future.) However, if as Dayton Miller measured there is also an ether drift along the axis of the Solar planetary plane, then the moon influence on the Ultra Large Sagnac Laser measurements is expected to be also present at other quarter positions of the moon.
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