Supermassive black hole experiment

The 4 million solar mass - supermassive black hole at the center of
our galaxy, spins at 37% the speed of light, and is 30,000 light years
away.

It is possible to send signals around that object in a way that
returns a portion of the signal back to Earth at a points in time
earlier as well as later than it left. That is some of the radiant
energy arriving at the black hole forms a CTL path implementing a
reversed time link with nothing more than a radio telescope. With
such a setup it should be possible to send signals back and forth
across the cosmos in real time! This allows tele-robotics and
telepresence to operate instantly across the cosmos with technology
only marginally in advance of our own.

That is, a small portion of a powerful radio pulse sent from Earth
should be capable of being detected back on Earth at the same time, as
well as shortly before and shortly after it was sent, since a portion
of the energy travels through many paths around the black hole.

http://www.youtube.com/watch?v=fytriKJ8xhE

http://www.geocities.com/theophysics/tipler-rotating-cylinders.pdf

Using 1 micron wavelengths, and using emitters locate 1,000 AU
distance from the center of the sun, to use gravity lensing to create
an effective collimated emitter 20 million km in diameter to
illuminate the 20 million km diameter black hole 284 quadrillion km
away.

http://hyperphysics.phy-astr.gsu.edu/Hbase/phyopt/Raylei.html

sin theta_r = 1.22 lambda/diam2

lambda = 1e-6 m
diam1 = 2e+10 m

sin theta_r = 6.1e-15

diam2 = L * sin theta_r

L = 2.84e+20 m

diam2 = 2.84e+20 * 6.1e-15
= 46,557 meters

So, using a system described here, its possible to transmit a signal
to a particular spot on the surface of the supermassive black hole at
the center of the galaxy, and receive a signal back from a similarly
sized spot.

In this way a 'negative delay loop' can be introduced into ANY
telecommunications link, providing instantaneous communications across
ANY distance.



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Relevant Pages

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