Introduction The existence of efficient quantum error correction (QEC), combined with the concept of the accuracy threshold [G98, KLZ98a], inspired confidence that reliable quantum computation is achievable in principle. However, a key point to understand is whether there are physical limitations to resilient quantum computation within this framework. In this chapter, we discuss one of the few situations that still poses some doubts [AHH+02, CSG.-B04, KF05, A06, ALZ06] about the effectiveness of QEC codes: critical environments. The term “critical environment” originates from condensed matter physics, where it refers to physical systems in which quantum correlations decay as power laws. In such an environment, the Born–Markov approximation ...
Quantumcomputation is the modern version of Schrödinger’s cat experiment. It is backed up in princip...
In the past year many developments have taken place in the area of quantum error corrections. Recent...
It was once widely believed that quantum computation would never become a reality. However, the disc...
Introduction The existence of efficient quantum error correction (QEC), combined with the concept of...
The proof that e ient quantum error orre tion (QEC) odes exist, ombined with the on ept of err...
A major problem on the road to building scalable quantum computers is the difficult task of protecti...
Based on a talk given at the Future Trends in Microelectronics workshop, Crete, June 2006. 8 pages, ...
We analyze the long-time behavior of a quantum computer running a quantum error correction (QEC) cod...
It is argued that the existing schemes of fault-tolerant quantum computation designed for discrete-t...
The new eld of quantum error correction has developed spectacularly since its origin less than two y...
Errors are likely to be a serious problem for quantum computers, both because they are built of sma...
In this paper we present a new unified theoretical framework that describes the full dynamics of qua...
this paper we address the last remaining theoretical obstacle to such a construction, namely, the pr...
This thesis is concerned with certain theoretical problems that arise naturally in the context of fa...
Assumptions useful for fault tolerant quantum computing are stated and briefly discussed. We focus o...
Quantumcomputation is the modern version of Schrödinger’s cat experiment. It is backed up in princip...
In the past year many developments have taken place in the area of quantum error corrections. Recent...
It was once widely believed that quantum computation would never become a reality. However, the disc...
Introduction The existence of efficient quantum error correction (QEC), combined with the concept of...
The proof that e ient quantum error orre tion (QEC) odes exist, ombined with the on ept of err...
A major problem on the road to building scalable quantum computers is the difficult task of protecti...
Based on a talk given at the Future Trends in Microelectronics workshop, Crete, June 2006. 8 pages, ...
We analyze the long-time behavior of a quantum computer running a quantum error correction (QEC) cod...
It is argued that the existing schemes of fault-tolerant quantum computation designed for discrete-t...
The new eld of quantum error correction has developed spectacularly since its origin less than two y...
Errors are likely to be a serious problem for quantum computers, both because they are built of sma...
In this paper we present a new unified theoretical framework that describes the full dynamics of qua...
this paper we address the last remaining theoretical obstacle to such a construction, namely, the pr...
This thesis is concerned with certain theoretical problems that arise naturally in the context of fa...
Assumptions useful for fault tolerant quantum computing are stated and briefly discussed. We focus o...
Quantumcomputation is the modern version of Schrödinger’s cat experiment. It is backed up in princip...
In the past year many developments have taken place in the area of quantum error corrections. Recent...
It was once widely believed that quantum computation would never become a reality. However, the disc...