10.6084/m9.figshare.1012778.v1
Huaizhi Wu
Zhen-Biao Yang
Li-Tuo Shen
Shi-Biao Zheng
Population of atomic states |00〉<sub>23</sub>, |EPR〉<sub>23</sub>, and |<em>rr</em>〉<sub>23</sub> versus dimensionless rescaled time Ω<sub>0<em>r</em></sub><em>t</em> with Rydberg interaction strength
2013
IOP Publishing
epr
teleportation scheme
quantum information science
scalable quantum computation
Rydberg interaction strength
Abstract Neutral atoms
pepr
Bell state measurements
Rydberg blockade mechanism
2013-09-05 00:00:00
article
https://iop.figshare.com/articles/figure/_Population_of_atomic_states_00_sub_23_sub_EPR_sub_23_sub_and_em_rr_em_sub_23_sub_versus_dimensionle/1012778
<p><strong>Figure 3.</strong> Population of atomic states |00〉<sub>23</sub>, |EPR〉<sub>23</sub>, and |<em>rr</em>〉<sub>23</sub> versus dimensionless rescaled time Ω<sub>0<em>r</em></sub><em>t</em> with Rydberg interaction strength. (a) Δ<sub><em>r</em></sub>/Ω<sub>0<em>r</em></sub> = 0, (b)Δ<sub><em>r</em></sub>/Ω<sub>0<em>r</em></sub> = 1, (c)Δ<sub><em>r</em></sub>/Ω<sub>0<em>r</em></sub> = 5 and (d)Δ<sub><em>r</em></sub>/Ω<sub>0<em>r</em></sub> = 10. The initial state is |00〉<sub>23</sub>. The effect of spontaneous emission from the Rydberg state is neglected here. The Rydberg interaction strength varies the time evolution of the two-atom system. Without interaction the system displays a perfect sinusoidal oscillation, see (a). The gradually enhanced interaction strength hinders the atoms from double excitation. The population <em>P</em><sub>EPR</sub> of the maximally entangled state |EPR〉<sub>23</sub> can exceed 0.95 for Δ<sub><em>r</em></sub>/Ω<sub>0<em>r</em></sub> = 10. As Ω<sub>0<em>r</em></sub><em>t</em> grows, the peak value of <em>P</em><sub>EPR</sub> (indicated by purple arrows) can be higher than other peaks without considering spontaneous emission.</p> <p><strong>Abstract</strong></p> <p>Neutral atoms excited to Rydberg states can interact with each other via dipole–dipole interaction, which results in a physical phenomenon called the Rydberg blockade mechanism. The effect attracts much attention due to its potential applications in quantum computation and quantum simulation. Quantum teleportation has been the core protocol in quantum information science playing a key role in efficient long-distance quantum communication. Here, we first propose the implementation of a teleportation scheme with neutral atoms via Rydberg blockade, in which the entangled states of qubits can readily be prepared and the Bell state measurements just require single qubit operations without precise control of Rydberg interaction. The rapid experimental progress of coherent control of Rydberg excitation, optical trapping techniques and state-selective atomic detection promise the application of the teleportation scheme for scalable quantum computation and many-body quantum simulation using the protocol proposed by Gottesman and Chuang (1999 <em>Nature</em> <strong>402</strong> 390) with Rydberg atoms in an optical lattice.</p>