Is the entanglement robust enough to survive a long shaky trip? I recall reading that it is not easy to keep the effect for a long time.
Dave -----Original Message----- From: peter.heckert <peter.heck...@arcor.de> To: vortex-l <vortex-l@eskimo.com> Sent: Thu, Dec 8, 2011 10:37 am Subject: Aw: [Vo]:Article - Quantum Entanglement Allows Diamonds to Communicate ---- Original Nachricht ---- on: Michele Comitini <michele.comit...@gmail.com> n: "vortex-l@eskimo.com" <vortex-l@eskimo.com> atum: 08.12.2011 14:29 etreff: [Vo]:Article - Quantum Entanglement Allows Diamonds to Communicate > http://www.laboratoryequipment.com/news-Quantum-Entanglement-Allows-Diamonds -to-Communicate-120511.aspx?xmlmenuid=51 Researchers have managed to get one small diamond to communicate with another small diamond utilizing "quantum entanglement," one of the more mind-blowing features of quantum physics. he problem is: Entanglement means the diamonds are in connection, but the ntanglement is destroyed as soon as an external influence kicks in. herefore this cannot been used for communication. f one diamond is on mars and another is on earth then two observers one at arth and one at mars make the same observations without time delay, but they annot interchange messages. The two diamonds behave like synchronized clocks. he mechanism could possibly been used for a precise one-way measurement of ightspeed.
