https://doi.org/10.1140/epjd/e2009-00118-5
Quantum memory for photons in case of many close lying exciton resonances in solids
1
Institute for physical Research, NAS of Armenia, 0203 Ashtarak, Armenia
2
Yerevan State Medical University after Mkhitar Heratsi, 2 Koryun St., 0025 Yerevan, Armenia
Corresponding author: a alfred@ipr.sci.am
Received:
18
July
2008
Revised:
15
January
2009
Published online:
10
April
2009
The possibility of storage of quantum information with photons is studied in
the case of resonant transitions via many close lying exciton levels in a
solid with impurity 
-atoms. The upper levels of the
impurity atom form resonant Fano states, similar to the autoionization
atomic states, due to the configuration interaction with the continuum of
the exciton band. In this case slowing of light pulses is shown to be
realistic, in the presence of the control field, down to the group velocity
much lower than that in vacuum. The possibility of storage and
reconstruction of a quantum pulse is studied in the case of the
instantaneous switching on/off of the control field. It is shown that the
signal quantum pulse cannot be stored undistorted for differing values of
Fano parameters and for non-zero two-photon detuning and decay rate between
the lower levels (decoherence). However, for small difference of the Fano
parameters and for small values of the two-photon detuning and the
decoherence there is no distortion in the case where the length of the pulse
is much longer than the linear absorption (amplification) length, so the
shape and quantum state of the light pulse can be restored.
PACS: 32.80.Qk – Coherent control of atomic interactions with photons / 42.50.Gy – Effects of atomic coherence on propagation, absorption, and amplification of light; electromagnetically induced transparency and absorption
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2009
