Add to ORKGWe present a scheme for correcting qubit loss error while quantum computing with neutral atoms in an addressable optical lattice. The qubit loss is first detected using a quantum nondemolition measurement and then transformed into a standard qubit error by inserting a new atom in the vacated lattice site. The logical qubit, encoded here into four physical qubits with the Grassl-Beth-Pellizzari code, is reconstructed via a sequence of one projective measurement, two single-qubit gates, and three controlled-NOT operations. No ancillary qubits are required. Both quantum nondemolition and projective measurements are implemented using a cavity quantum electrodynamics system which can also detect a general leakage error and thus allow qubi...
We present a complete scheme for quantum information processing using the unique features of alkalin...
We present a blueprint for building a fault-tolerant universal quantum computer with Rydberg atoms. ...
Quantum computing exploits the laws of quantum mechanics to exponentially increase computing rate fo...
We present a scheme for correcting qubit loss error while quantum computing with neutral atoms in an...
Neutral atom arrays have recently emerged as a promising platform for quantum information processing...
The successful operation of quantum computers relies on protecting qubits from decoherence and noise...
We develop a method to entangle neutral atoms using cold controlled collisions. We analyse this meth...
We propose to integrate dark-state based localization techniques into a neutral atom quantum computi...
We make a detailed analysis of error mechanisms, gate fidelity, and scalability of proposals for qua...
We show how realistic cavity-assisted interaction between neutral atoms and coherent optical pulses,...
We study a system of neutral atoms trapped in a three-dimensional optical lattice suitable for the e...
Most neutral atom quantum computing experiments rely on destructive state detection techniques that ...
We propose a scheme to achieve quantum computation with neutral atoms whose interactions are catalyz...
We present a linear optics quantum computation scheme that employs a new encoding approach that incr...
Neutral atoms are a promising platform for scalable quantum computing, however prior demonstration o...
We present a complete scheme for quantum information processing using the unique features of alkalin...
We present a blueprint for building a fault-tolerant universal quantum computer with Rydberg atoms. ...
Quantum computing exploits the laws of quantum mechanics to exponentially increase computing rate fo...
We present a scheme for correcting qubit loss error while quantum computing with neutral atoms in an...
Neutral atom arrays have recently emerged as a promising platform for quantum information processing...
The successful operation of quantum computers relies on protecting qubits from decoherence and noise...
We develop a method to entangle neutral atoms using cold controlled collisions. We analyse this meth...
We propose to integrate dark-state based localization techniques into a neutral atom quantum computi...
We make a detailed analysis of error mechanisms, gate fidelity, and scalability of proposals for qua...
We show how realistic cavity-assisted interaction between neutral atoms and coherent optical pulses,...
We study a system of neutral atoms trapped in a three-dimensional optical lattice suitable for the e...
Most neutral atom quantum computing experiments rely on destructive state detection techniques that ...
We propose a scheme to achieve quantum computation with neutral atoms whose interactions are catalyz...
We present a linear optics quantum computation scheme that employs a new encoding approach that incr...
Neutral atoms are a promising platform for scalable quantum computing, however prior demonstration o...
We present a complete scheme for quantum information processing using the unique features of alkalin...
We present a blueprint for building a fault-tolerant universal quantum computer with Rydberg atoms. ...
Quantum computing exploits the laws of quantum mechanics to exponentially increase computing rate fo...