Slashdot Mirror
How To Encode 2.05 Bits Per Photon, By Using Twisted Light
Thorfinn.au writes Researchers at the University of Rochester and their collaborators have developed a way to transfer 2.05 bits per photon by using "twisted light." [Abstract here.]This remarkable achievement is possible because the researchers used the orbital angular momentum of the photons to encode information, rather than the more commonly used polarization of light. The new approach doubles the 1 bit per photon that is possible with current systems that rely on light polarization and could help increase the efficiency of quantum cryptography systems.
Come on, 41 per 20 is so much simpler.
An Anonymous Coward at Slashdot have developed a way of transfer 4 bits per photon by using "different colors". This remarkable achievement is possible because the anonymous coward used the wavelength of the photons to encode information, rather than the more commonly used polarization of light. During transmission Alice sends a photon of one of 16 predefined wavelengths (colors) and using a prism Bob detects the color and thus obtains 4 bits of information. The new approach quadruples the 1 bit per photon that is possible with current systems that rely on light polarization and could help increase the efficiency of quantum cryptography systems.
And 42 would be so much funnier.
Get free satoshi (Bitcoin) and Dogecoins
Egon Spengler: There's something very important I forgot to tell you.
Peter Venkman: What?
Spengler: Don't cross the streams.
Venkman: Why?
Spengler: It would be bad.
Venkman: I'm fuzzy on the whole good/bad thing. What do you mean, "bad"?
Spengler: Try to imagine all life as you know it stopping instantaneously and every molecule in your body exploding at the speed of light.
Ray Stantz: Total protonic reversal!
Venkman: Right. That's bad. Okay. All right. Important safety tip. Thanks, Egon.
Get free satoshi (Bitcoin) and Dogecoins