Events: Centre WACQThttp://www.chalmers.se/sv/om-chalmers/kalendariumUpcoming events at Chalmers University of TechnologyWed, 28 Sep 2022 11:30:21 +0200http://www.chalmers.se/sv/om-chalmers/kalendariumhttps://www.chalmers.se/en/centres/wacqt/calendar/Pages/Conservation-laws-and-quantum-error-correction.aspxhttps://www.chalmers.se/en/centres/wacqt/calendar/Pages/Conservation-laws-and-quantum-error-correction.aspxConservation laws and quantum error correction<p>Kollektorn, lecture room, MC2-huset, Campus Johanneberg</p><p>Speaker: Ben Brown, IBM Quantum</p><strong>​</strong><span style="background-color:initial"><strong>Abstract:</strong></span><div>A quantum error-correcting code depends on a classical decoding algorithm that uses the outcomes of stabilizer measurements to determine the error that needs to be repaired. Likewise, the design of a decoding algorithm depends on the underlying physics of the quantum error-correcting code that it needs to decode. The surface code, for instance, can make use of the minimum-weight perfect-matching decoding algorithm to pair the defects that are measured by its stabilizers due to its underlying charge parity conservationsymmetry. In this talk I will argue that this perspective on decoding gives us a unifying principle to design decoding algorithms for exotic codes, as well as new decoding algorithms that are specialised to the noise that a code will experience. I will describe new decoders for exotic fracton codes we have designed using these principles. I will also discuss how the symmetries of a code change if we focus on restricted noise models, and how we have leveraged this observation to design high-threshold decoders for biased noise models. In addition to these examples, this talk about recent work on decoding the color code, where we found a high-performance decoder by investigating the defect conservation laws at the boundaries of the color code. Remarkably, our results show that we obtain an advantage by decoding this planar quantum error-correcting code by matching defects on a manifold that has the topology of a Moebius strip.</div> <div>​<br /></div> https://www.chalmers.se/en/research/strong/nano/calendar/Pages/initiative_seminar_2022_ei_nano.aspxhttps://www.chalmers.se/en/research/strong/nano/calendar/Pages/initiative_seminar_2022_ei_nano.aspxInitiative seminar - A nano focus on quantum materials<p>Chalmers Conference Centre, company, Chalmersplatsen 1, Kårhuset</p><p>​Save the date for the Excellence Initiative Nano Initiative seminar A nano focus on quantum materials.Read more on the conference page​</p>