We report observations of photorefractive grating fixing in potassium niobate at room temperature by means of ferroelectric domains. A grating is recorded while the crystal is simultaneously depoled. By repoling the crystal, the presence of a latent grating is revealed. This fixed grating diffracts light with an efficiency which increases when an electric field is subsequently applied and when it is uniformly illuminated. We explain these observations qualitatively using a previously developed model that involves charge compensation by domain walls, and a new aspect that invokes the creation of new trap sites at the ferroelectric domain walls.
REFERENCES
1.
2.
3.
Y.
Qiao
, S.
Orlov
, D.
Psaltis
, and R. R.
Neurgaonkar
, Opt. Lett.
18
, 1004
(1993
).4.
A. S.
Kewitsch
, M.
Segev
, A.
Yariv
, and R.
Neurgaonkar
, Opt. Lett.
18
, 1262
(1993
).5.
6.
R. S.
Cudney
, J.
Fousek
, M.
Zgonik
, P.
Günter
, M.
Garrett
, and D.
Rytz
, Appl. Phys. Lett.
63
, 3399
(1993
).7.
R. S.
Cudney
, J.
Fousek
, M.
Zgonik
, P.
Günter
, M. H.
Garrett
, and D.
Rytz
, Phys. Rev. Lett.
72
, 3883
(1994
).8.
9.
N. V.
Kukhtarev
, V. B.
Markov
, S. G.
Odulov
, M. S.
Soskin
, and V. L.
Vinetskii
, Ferroelectrics
22
, 949
(1979
).10.
S.
Orlov
, D.
Psaltis
, and R. R.
Neurgaonkar
, Appl. Phys. Lett.
63
, 2466
(1993
).
This content is only available via PDF.
© 1997 American Institute of Physics.
1997
American Institute of Physics
You do not currently have access to this content.
