One problem with ion traps qubits has been the heating of the motional degrees of the trapped ions, due mostly to fluctuating potentials on the trap electrodes. The electrode potential goes yee-yaw and the ion goes wee-wah, heating up and thus ruining the motional degree of freedom of the ion. One idea has been that these potentials are thermally activated. If this is true, then cooling down the electrodes should reduce this “anomalous” heating. And indeed, here is a Physical Review Letter describing just such a result from the group at the University of Michigan using a cool double-needle radio frequency trap (See also here.) By lowering the electrodes from 300 K to approximately 150 K the group was able to reduce the heating rate by an order of magnitude. Mmmm, delicious order of magnitude.
A Calculation
Sweet, just in time for my trip to the Allerton conference in Illinois, a partial lift on the ban on liquids (also known as the “Coke kills” rules) in carry-on luggage. Have to put it in a nice little baggie, though. Good thing because I was just going to buy and ditch my new liquids in Illinois. Either that or stink out the other participants!
And while I wait in line tomorrow, I’m going to try not to think about this calculation!
Moxie
Ian Durham has moved his blog to Quantum Moxie. The reason:
Well, for those of you (all two of you) who read The New American Whig, my former blog, I have decided to reduce the politics and ramp up the quantum mechanics and physics in general (which is my everyday passion). Politics just gets depressing after awhile whereas physics is almost always exciting! Though my students would perhaps disagree…
Indeed, I myself have cut out politics from what I blog about for similar reasons. Also because it makes me rant even worse than I normally rant. Maybe what we need to do is to combine quantum physics with politics. I mean politicians take “positions” what’s to keep them from taking “superpositions?”
IQING 5, April 11-14, 2007 in Innsbruck, Austria
Michael Bremner (aka quantumbiodiscs), writing on behalf of the organizing committee, informs me about IQING 5 to be held in Innsbruck in April:
IQING 5 (first announcement):
IQING 5 (Informal Quantum INformation Gathering), will be held on
April 11 – 14 2007 in Innsbruck, Austria.
Like the previous incarnations of the IQING, IQING 5 is a workshop is intended for junior postdocs and research students working on either theoretical or experimental quantum information science. IQING 5 will
provide an informal environment where junior researchers can promote their work to their peers and discuss new directions in the field of quantum information science.
The organizing committee intends to have details for registration and submission available in October/November with the 1st of January as the deadline. For more information, please bookmark: http://www.iqoqi.at/events/conferences/iqing2007/
Alas it appears that I’m too old to attend! But luckily I get to visit Innsbruck in a few weeks.
Drink Orange Juice, Attend a Conference, Thaw Out
Pawel Wocjan (who just started on the faculty at the University of Central Florida, congrats!) emails me about a workshop he is helping organize. Florida in November sounds pretty warm!
Call for participation: I2Lab Workshop ‘Frontiers in Quantum and Biological Information Processing’ in Orlando, November 16-17, 2006 http://i2lab.ucf.edu/News/Workshops.html
The Workshop ‘Frontiers in Quantum and Biological Information Processing’ will be held at the University of Central Florida (UCF), in Orlando, FL, on November 16th and 17th, 2006. It is sponsored by the Interdisciplinary Information Science and Technology Laboratory (I2Lab) at UCF. The organizers are James Hickman, Michael Leuenberger, Dan Marinescu, Eduardo Mucciolo, and Pawel Wocjan.
For more information on the motivation, the program, the list of invited speakers and program directors from funding agencies, and registration go to http://i2lab.ucf.edu/News/Workshops.html
There is a limited number of slots for non-invited participants. The registration will remain open until all the slots are filled.
As an aside, anyone who is organizing a conference in quantum information science and would like an announcement like this posted on the Quantum Pontiff should feel free to send me an email. Of course a great resource is Daniel Lidar’s Quantum Computation and Information Conferences.
Philosophia Naturalis #1
A new science blog carnival: Philosophia Naturalis #1.
A New Path to Research
Steve sends me a link to a Seed magazine article about The Poker Playing Physicist. No word on whether he will continue in poker or retire to a life of physics research.
The Real Starbucks Story
Forget the war over customers finding creative ways to use milk at Starbucks. The real story here in Washington and Oregon coffeeland is that the mermaid’s hair has been moved back in Starbuck’s logo. And I can report that, indeed, children all over Seattle are now running around crazied. The logo appears to have fried their Puritanical neurons.
Young, Smart, and Ready to Quantum Compute
I just finished reading Lee Smolin’s The Trouble with Physics. No, I’m not going to review it. What do you think I want the Quantum Pontiff to turn into a gigantic ball of flaming flamable flame wars? (The publisher actually was supposed to send me a copy and may still, but with my moving it may have missed me. But not to worry I went out and bought a copy myself because I couldn’t resist.)
Actually okay here is a two second review. The book is a fast, interesting read and I recommend it to anyone who is curious as to what all the fuss on certain websites is about without having to wade through a vast collection of comment tirades. Contrary to what you might expect, loop quantum gravity is not trumpted up as an alternative to string theory in the book, instead Smolin focuses on what he sees are the challenges string theory faces and then also about how he thinks the sociology of academia causes problems at a time when revolutionary new ideas are needed (which is what Smolin argues is required to get beyond our current status in the search for a quantum theory of gravity.) This later part of the book is interesting irrespective of your views or understanding of string theory and Smolin makes the case that the academic system has a lot of weaknesses when it comes time for truely new physics.
But okay, enought about the contents of the book that I’m not qualified to comment on. Lee Smolin actually mentions quantum computing multiple times in the book. Now first I have to take him to task because I am a nitpicking little son-of-a, and I just can’t help myself. Smolin writes
In 1994, Peter Shor of MIT, who was then a computer scientist at Bell Laboratories, found a remarkable result, which is that a large enough quantum computer would be able to break any code in existence.
Whoops. No, Shor’s algorithm can break the main public key cryptosystems those based on the difficulty of factoring and the discrete logriathm, but there are still public key cryptosystems which are so far resistent to both quantum and classical attacks (like those based on certain shortest vector in a lattice problems.) So quantum computers can’t break any code in existence. But, all is well, because in the next few sentences Smolin pays quantum computer some amazing props:
..Since then money has flooded into the field of quantum computation, as governments do not want to be the last to have their codes borken. This money has supported a new generation of young, very smart scientsits- physicists, computer scientists, and mathematicians. They have created a new field, a blending of physics and computer science, a significant part of which involves a reexcamination of the foundations of quantum mechanics. All of a sudden, quantum computer is hot, with lots of new ideas and results. Some of these results address the concerns about the foundations and many could have been discovered anytime since the 1930s. Here is a clear example of how the suppresion of a field by academic politics can hold up progress for decades
See he called quantum computer people “young” and “very smart!” That’s like being called “cool” in physics language! Now if only quantum computing could follow string theory’s example and populate physics departments across the country. Perhaps those in control of U.S. physics deparments who have hired a number of quantum computing theorists countable on fingers over the last few years have secretely been doing us all a big favor by keeping us from becoming overhyped and overpopulated. Or at least overpopulated.
Vente Nonfat Sugarfree Vanilla Latte
What war looks like in Seattle.