My friend Lon Christensen is the CTO of a company called Quorum Systems in San Diego which makes chipsets which can access both GSM and WLAN networks simultaneously. If you Google for “quorum systems” you will realize why it’s important not to name your company after a technical computer science term.
Ion Trap Milestone
The slow steady advance in ion traps! A milestone: Realization of quantum error correction,” J. Chiavernini, D. Leibfried, T. Schaetz, M. D. Barrett, R. B. Blakestad, J. Britton, W. M. Itano, J. D. Jost, E. Knill, C. Langer, R. Ozeri & D. J. Wineland, Nature 432, 602–605 (2004)
Scalable quantum computation and communication require error control to protect quantum information against unavoidable noise. Quantum error correction protects information stored in two-level quantum systems (qubits) by rectifying errors with operations conditioned on the measurement outcomes. Error-correction protocols have been implemented in nuclear magnetic resonance experiments, but the inherent limitations of this technique prevent its application to quantum information processing. Here we experimentally demonstrate quantum error correction using three beryllium atomic-ion qubits confined to a linear, multi-zone trap. An encoded one-qubit state is protected against spin-flip errors by means of a three-qubit quantum error-correcting code. A primary ion qubit is prepared in an initial state, which is then encoded into an entangled state of three physical qubits (the primary and two ancilla qubits). Errors are induced simultaneously in all qubits at various rates. The encoded state is decoded back to the primary ion one-qubit state, making error information available on the ancilla ions, which are separated from the primary ion and measured. Finally, the primary qubit state is corrected on the basis of the ancillae measurement outcome. We verify error correction by comparing the corrected final state to the uncorrected state and to the initial state. In principle, the approach enables a quantum state to be maintained by means of repeated error correction, an important step towards scalable fault-tolerant quantum computation using trapped ions.
Courage
Kiev, Ukraine, Nov. 29 (UPI) — The sign-language interpreter on a Ukrainian TV station Thursday staged a silent protest against the nation’s election by signing, “They are lying.”
During a news report on state-owned UT-1 that called Viktor Vanukovych the winner of the presidential election, Natalya Dmitruk told viewers in sign language, “I am addressing all the deaf citizens of Ukraine. Our president is (Viktor) Yushchenko. Don’t believe what they say. They are lying.”
Dmitruk then went back to signing the news report but digressed one more time at the end: “My soul is heavy that I had to repeat these lies. I will not do it again. I don’t know if we’ll see each other again.”
Damn Spam
Spam has evolved to putting subjects which will trick you into opening the email. If you email me, don’t put “hello” in the subject, cus I probably won’t open the email. If, on the other hand, you put “eigenstate” as the subject, as did the spam I received today, I will open the email. Doh!