Add to ORKGOne of the most effective ways to advance the performance of quantum computers and quantum sensors is to increase the number of qubits or quantum resources used by the system. A major technical challenge that must be solved to realize this goal for trapped-ion systems is scaling the delivery of optical signals to many individual ions. In this paper we demonstrate an approach employing waveguides and multi-mode interferometer splitters to optically address multiple $^{171}\textrm{Yb}^+$ ions in a surface trap by delivering all wavelengths required for full qubit control. Measurements of hyperfine spectroscopy and Rabi flopping were performed on the E2 clock transition, using integrated waveguides for delivering the light needed for Doppler c...
Scaling up from prototype systems to dense arrays of ions on chip, or vast networks of ions connecte...
The use of multilevel information carriers, also known as qudits, is a promising path for exploring ...
Atomic ions trapped in ultra-high vacuum form an especially well-understood and useful physical sy...
Two-qubit gates are a fundamental constituent of a quantum computer and typically its most challengi...
Trapped atomic ion systems are currently the most advanced platform for quantum information processi...
<p>Trapped ion systems are the leading candidate for quantum information processing because many of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2009.Cataloged from PDF ve...
The scaling of controlled quantum systems to large numbers of degrees of freedom is one of the long ...
<p>Although trapped ion technology is well-suited for quantum information science, scalability of th...
Trapped atomic ion systems are currently the most advanced platform for quantum information processi...
Experiments with trapped ions and neutral atoms typically employ optical modulators in order to cont...
We propose and demonstrate a protocol for high-fidelity indirect readout of trapped ion hyperfine qu...
Long-range transport of quantum information across a network is most readily achieved through the us...
Long-range transport of quantum information across a network is most readily achieved through the us...
Scaling up from prototype systems to dense arrays of ions on chip, or vast networks of ions connecte...
The use of multilevel information carriers, also known as qudits, is a promising path for exploring ...
Atomic ions trapped in ultra-high vacuum form an especially well-understood and useful physical sy...
Two-qubit gates are a fundamental constituent of a quantum computer and typically its most challengi...
Trapped atomic ion systems are currently the most advanced platform for quantum information processi...
<p>Trapped ion systems are the leading candidate for quantum information processing because many of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2009.Cataloged from PDF ve...
The scaling of controlled quantum systems to large numbers of degrees of freedom is one of the long ...
<p>Although trapped ion technology is well-suited for quantum information science, scalability of th...
Trapped atomic ion systems are currently the most advanced platform for quantum information processi...
Experiments with trapped ions and neutral atoms typically employ optical modulators in order to cont...
We propose and demonstrate a protocol for high-fidelity indirect readout of trapped ion hyperfine qu...
Long-range transport of quantum information across a network is most readily achieved through the us...
Long-range transport of quantum information across a network is most readily achieved through the us...
Scaling up from prototype systems to dense arrays of ions on chip, or vast networks of ions connecte...
The use of multilevel information carriers, also known as qudits, is a promising path for exploring ...
Atomic ions trapped in ultra-high vacuum form an especially well-understood and useful physical sy...