Experiments on detection of cosmic ether
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1 From the SelectedWorks of Vildyan Yanbikov 2014 Experiments on detection of cosmic ether Vildyan Yanbikov Available at:
2 Yanbikov Vil'dyan Shavkyatovich Russian Federation, Volgograd, , Bibliotechnaya street, house 14, apartament 95. Phone: Experiments on detection of cosmic ether Аbstract: Proof of the existence of the world ether in outer space may be a measure of the speed relative to the cosmic vacuum. Provides a description of the optical device which is aimed to measure the speed and direction of motion with respect to the space of emptiness. The principle of the optical device is based on the phenomenon of stellar aberration. Keywords: Absolute outer space, the world broadcast, absolute system of readout n 0
3 Experiments on detection of cosmic ether Author: Yanbikov Vildyan Shavkyatovich I. Introduction Proof of the existence of the world ether in outer space may be a measure of the speed relative to the cosmic vacuum. Provides a description of the optical device which is aimed to measure the speed and direction of motion with respect to the space of emptiness. The principle of the optical device is based on the phenomenon of stellar aberration. II. The basic part Optical device consists of a cylindrical pipe with a diameter of about 100mm. and long (5-10)m (fig.1, fig.2, fig.3). On one end of which is fixed source of radiation with thin light beam. And the other end of the pipe is closed paper screen. The bottom of the pipe are perpendicular to the axis of the cylinder SD. On the axis of the cylinder SD on a spherical support in a section of one of the grounds of the pipe is fixed end light guide cable. Which is served light beam along the axis of the cylinder SD. Paper screen MN perpendicular to the axis of the cylinder SD. Monitoring is carried out with the external side of the screen. Diameter of the pipe should be such that the beam of light falling on the side walls of the pipe. The axis of the pipe can change the orientation in space within a solid angle 4π. Theoretically, the principle of the optical device is described as follows: With arbitrary orientation of the axis of the pipe SD in space beam from the source of radiation is directed along the axis of SD in point D. After the end of light guide cable is fixed on the ball socket. Then begins the change in orientation of the axis pipes in space. So she took all possible destinations within the solid angle 4π. Is this the position of the axis of the pipe. Where the beam leaves the screen luminous track as far as possible from the point of D. Notes is the maximum distance to the point А1 (fig.1). On the screen is a straight line А1D. Then begins the rotation axis of the pipe around the axis perpendicular to the plane of a triangle SDA1 (fig.1). The luminous track of a beam moves from point along the А1 direct А1D in the direction of point D. Pass the point of D luminous track is deleted from it at a maximum distance along a straight А1D. This is the maximum distance from the point D is celebrated on the screen point А2 (fig.2). Denote by α1 = A1D and α2 = A2D. Half cut A1A2 defined by the formula α = (α1 + α2). We denote the middle segment A1A2 on the screen point D0 ( fig.3 ). At coincidence of a glowing trail on the screen with 1
4 the point of D0. The direction of the beam SD0 will coincide with a direction of velocity relative to the cosmic ether ( fig.3 ). At coincidence of a glowing trail with one of the points А1 or А2. Rays of light SA1 or SA2 will be perpendicular to the velocity relative to the cosmic ether ( fig.1, fig.2 ). Speed of motion with respect to the cosmic ether is determined by the formula: V = where α = (α1 + α2) ; b = SD ; c is the light velocity in vacuum. In fig.1, fig.2, fig.3 vector V indicates the direction of motion relative to the cosmic ether. For planet Earth this speed presumably equal to approximately 400 km/s. The arrows indicate the direction of propagation of a photon. In practice, the experiment is as follows: Pipe axis at the time of the experiment should be parallel to the surface of the Earth. And there must be a pipe rotation around its axis. When arbitrary position of the pipes in the plane of the Earth's surface. When the source of radiation. The paper screen will be displayed trace from a beam in the form of a luminous spots. Needle punctured paper in the center of the bright spot. Then begins the rotation of pipes 360 degrees around its axis. The puncture should be separated from the glowing spot. Describe a circle with a diameter d1 and return to the center of the bright spot. Measured the diameter d1. We call these operations with a pipe (step 1.). Turn the axis of the pipe in the plane of the Earth's surface to about 10 degrees around the axis perpendicular to the surface of the Earth. Perform the same operation with a pipe (step 2). Get d2. Turn the pipe axis at 10 degrees around the axis perpendicular to the surface of the Earth up to 360 degrees. Perform the same operations with the pipe. We obtain a sequence of diameters d1, d2, d3, d4.... (circles of needle punctures). When pipe rotation in the plane of the Earth's surface. At some point, the pipe axis is perpendicular to the velocity of motion of the Earth relative to the cosmic ether. At the same moment some of diameters dn will be equal to dn = dmax. From this sequence diameters d1, d2, d3, d4.... you should choose a maximum diameter of dmax.. Speed of motion with respect to the cosmic ether will be determined from the formula: V = Where α = dmax ; b - the length of the pipe ; с is the light velocity in vacuum. Presumably when the velocity of the Earth relative to the cosmic ether about 400 km/s. At the length of the pipe 5м. The diameter of a circle puncture will be equal to dmax = 12мм. This value is easy to measure. The existence of an ether in space you can check the rotation of the Earth around its axis. On the flat surface of the Earth is fixed radiation source (laser). At a distance (50-100) m overhead screen. Beam 2
5 moves on the screen. Marks the position of the bright spot on the screen. The offset of the bright spot on the screen within 12 hours will be proof of the existence of ether in space. Several times to repeat the experience in different directions beam on the surface of the Earth. When different directions beam displacement of the bright spot may be more or less. It depends on the angle between the direction of the beam, and the vector of velocity of the Earth relative to the cosmic ether. Define the speed of propagation of the front of the light wave front. At the moment of its emission, during the transition of the atom from the excited state to the ground. Consider the radiation quantum energy of a hydrogen atom. Let the moment of emission of the quantum energy ε = hν. From the formula Heisenberg x p h take the minimum value of x p = h. The size of the hydrogen atom is equal to about m In the initial moment of radiation all the energy of a photon is localized inside the sphere with a diameter of m. Then x = m. The speed of diffusion of the electromagnetic wave where m is the equivalent photon mass. Substitution in the uncertainty leads to the expression = h Equivalent mass m = where h is Planck's constant; c is the speed of light in vacuum; λ - length electromagnetic wave. The minimum speed of the front of the electromagnetic wave at the beginning of the atom emission of a photon is equal range =10 10 λ c m/s. For the optical λ = 0.63*10 6 m. For the speed of the front of the electromagnetic wave. At λ = 0.63*10 6 m. Get the value of 2*10 12 m/s. High speed ( 2*10 12 m/s ) front electromagnetic wave. In the initial moment of radiation quantum energy. The result is very small variance α. Forward front of a light wave. Radiation nearest to the Earth star already has such a high speed. It is the speed of light in a vacuum. This phenomenon is confirmed by the stellar aberration. III. The conclusions It should be noted that the source of radiation ( laser ). Should submit the luminous flux to the bottom of the tube (S point). After quite a long fibre optic cable (hundreds of meters). With the passage of light from the laser to the entrance of the tube. Through fibre optic cable. Front light wave lifted to the trailing edge and starts moving at the speed of light in a vacuum. To obtain positive results in the experiment. For a source of radiation may be to apply the free electron laser in the x-ray range. Perhaps you should apply the radiation source emits a beam of atoms of neutral hydrogen H 0. Instead of 3
6 laser radiation source, you can use an extraterrestrial source of radiation (the Sun or the nearest bright star). The telescope is routed to a remote light source (the Sun or bright star). At the exit of the telescope by светопроводящему cable thin beam of light is served in the optical device. And is directed along the axis of the SD (fig.4) M E V S b D A1 fig.1. N M A2 V E S b D N fig.2. M E S b D0 V N fig.3. fibre optic cable fig.4. 4
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