The laws of physics might make the creation of a transporter which can dematerialise objects and then rematerialise them elsewhere a little beyond us, but it is now being suggested that an object could move from one region of space to another, completely unseen by anyone watching.

Research published in IOP Publishing's Journal of Optics, explains how the propagation of light can be manipulated to create a 'temporal void', allowing undetectable moments of invisibility.

As lead author, Professor Martin McCall from the Department of Physics at Imperial College London, explains, "Our spacetime 'event' cloak works by dividing illuminating light into a leading part which is sped up and passes before an event, and a trailing part which is slowed down and passes after. Light is then stitched back together seamlessly, so as to leave observers in ignorance."

Graduate student Alberto Favaro explains further, "It is unlike ordinary cloaking devices because it does not attempt to divert light around an object. Instead it pulls apart the light rays in time, as if opening a theatre curtain - creating a temporary corridor through which energy, information, and matter can be manipulated or transported undetected."

Researcher Dr Paul Kinsler is enthusiastic about their proof of concept design which uses customised versions of optical fibres already used in telecommunications to achieve the feat.

The team is confident that their findings will initiate a race to create a practical spacetime cloak.

Professor Martin McCall continues, "We have shown that by manipulating the way the light illuminating an event reaches the viewer, it is possible to hide the passage of time. Not only can specific events be obscured, but it is possible for me to be watching you and for you to suddenly disappear and reappear in a different location."

As well as making a safe-cracking thief's dreams come true, the optical breakthrough promises exciting advances in quantum computing, which depends on the manipulation of light for the safe transmission of vast amounts of data.

Besides the science-fiction capabilities of the event cloak, signal-processing applications will play a key role in driving research forward on this topic.

The researchers' paper can be downloaded here.

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