From: JACK SARFATTI <sarfatti@pacbell.net> Subject: [ExoticPhysics] Spacelike (FTL) Entanglement Signals with Trapped Ions? "magic wand" Apple's killer app. ; -) Date: February 11, 2013 8:22:02 PM PST To: Exotic Physics <exoticphysics@mail.softcafe.net> Reply-To: Jack Sarfatti's Workshop in Advanced Physics <exoticphysics@mail.softcafe.net>
Indeed, unless I am mistaken, this ultimately solid state system can be packaged into an Apple I phone to take photographs of the future seen in the past.
"6.5. Quantum Teleportation Mechanical States Analogous to continuous-variable teleportation of optical states [220], one can teleport the quantum state of one mechanical oscillator to the other, if two entangled squeezed beams are used to drive them, each of their positions are measured | and with results fed back to the other one (as shown in Fig. 18).
Use the Born rule in density matrix trace formalism to get e.g.
P(1)A = (1/2)(1 + | B<z|z'>B |^2)
This violates the parameter independence no-signal arguments of orthodox quantum theory because the Glauber coherent states are macroscopically distinguishable and non-orthogonal.
The Born probability rule breaks down in Antony Valentini's sense for Glauber states when they are entangled with other states.
P(1)A + P(0)A = 1 + | B<z|z'>B |^2
Not only can A & B be spacelike separated, but we can operate the "magick wand" in Wheeler delayed choice mode in which a tiny video camera is at B which transmits images and audio from A's future back to A in the past.
Indeed, this solid state system can be packaged into an Apple I phone to take photographs of the future.
No doubt those ET's in their magnificent flying disks have such crystals?