Tokyo Tech News

Quantum computing: Manipulating a single nuclear spin qubit of a laser cooled atom

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Published: September 3, 2013

It is advantageous to implement a quantum bit (qubit) with a single nuclear spin because the nuclear spin is robust against any stray magnetic fields. This robustness can be attributed to the small magnitude of the magnetic moment of the nuclear spin compared with that of the electronic spin.

However, the long coherence time of the nuclear spin qubit is normally traded off for enabling fast and highly efficient state measurements.

Now, Atsushi Noguchi, Yujiro Eto, Masahito Ueda and Mikio Kozuma at Tokyo Institute of Technology and Tokyo University have shown that a quantum state can be measured with high speed and high efficiency using a cavity quantum electrodynamics (QED) system with a single ytterbium (Yb) atom.

The researchers loaded a single laser cooled Yb atom into a high-finesse optical cavity with a moving lattice, and its nuclear spin state was manipulated using a nuclear magnetic resonance technique (NMR) (see figure 1).

A highly reliable quantum state control with fidelity and purity greater than 0.98 and 0.96, respectively, was confirmed by full quantum state tomography-- enabling a high speed (500 μs) and high efficiency (0.98) projective measurement . Notably, long coherence times (T1 = 0.49 s and T2 = 0.10 s) were maintained.

These values are sufficiently large to implement scalable quantum computation via the application of our technique to create a many-body entangled state in an optical lattice.


Figure 1 By utilizing the "moving lattice", we load the atoms into the cavity. When the atoms are irradiated with a pump beam, they repeatedly emit fluorescence photons into the cavity mode by the Purcell effect.

Reference:

  • Authors: Atsushi Noguchi, Yujiro Eto, Masahito Ueda, and Mikio Kozuma
  • Title of the original paper: Quantum-state tomography of a single nuclear spin qubit of an optically manipulated ytterbium atom
  • Journal, volume, pages and year: Physical Review A 84, 030301(R) (2011).
  • Digital Object Identifier (DOI): 10.1103/PhysRevA.84.030301
  • Affiliations: Department of Physics, Tokyo Institute of Technology
  • Department website: http://www.phys.titech.ac.jp/laboratory/kozuma.html

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