Abstract

The nonlinear Huygens–Fresnel principle has been used to design multifunctional nonlinear optical devices. Focused second-harmonic generations have been observed with strong polarization sensitivity. Numerical simulations have been performed, and the results fit well with the experiments.

© 2013 Optical Society of America

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2012

2011

2009

J. J. Chen and X. F. Chen, Phys. Rev. A 80, 013801 (2009).
[CrossRef]

T. Ellenbogen, N. Voloch, A. Ganany-Padowicz, and A. Arie, Nat. Photonics 3, 395 (2009).
[CrossRef]

2008

Y. Q. Qin, C. Zhang, Y. Y. Zhu, X. P. Hu, and G. Zhao, Phys. Rev. Lett. 100, 063902 (2008).
[CrossRef]

2004

A. Fragemann, V. Pasiskevicius, and F. Laurell, Appl. Phys. Lett. 85, 375 (2004).
[CrossRef]

2002

J. R. Kurz, A. M. Schober, D. S. Hum, A. J. Saltzman, and M. M. Fejer, IEEE. J. Sel. Top. Quantum Electron. 8, 660 (2002).
[CrossRef]

2000

N. G. R. Broderick, G. W. Ross, H. L. Offerhaus, D. J. Richardson, and D. C. Hanna, Phys. Rev. Lett. 84, 4345 (2000).
[CrossRef]

S. Saltiel and Y. S. Kivshar, Opt. Lett. 25, 1204 (2000).
[CrossRef]

1998

V. Berger, Phys. Rev. Lett. 81, 4136 (1998).
[CrossRef]

1997

1992

M. M. Fejer, G. A. Magel, D. H. Jundt, and R. L. Byer, IEEE J. Quantum Electron. 28, 2631 (1992).
[CrossRef]

1962

J. Armstrong, N. Bloembergen, J. Ducuing, and P. Pershan, Phys. Rev. 127, 1918 (1962).
[CrossRef]

Arie, A.

A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Opt. Lett. 37, 2136 (2012).
[CrossRef]

N. Voloch-Bloch, K. Shemer, A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Phys. Rev. Lett. 108, 233902 (2012).
[CrossRef]

A. Shapira, I. Juwiler, and A. Arie, Opt. Lett. 36, 3015 (2011).
[CrossRef]

T. Ellenbogen, N. Voloch, A. Ganany-Padowicz, and A. Arie, Nat. Photonics 3, 395 (2009).
[CrossRef]

Armstrong, J.

J. Armstrong, N. Bloembergen, J. Ducuing, and P. Pershan, Phys. Rev. 127, 1918 (1962).
[CrossRef]

Berger, V.

V. Berger, Phys. Rev. Lett. 81, 4136 (1998).
[CrossRef]

Bloembergen, N.

J. Armstrong, N. Bloembergen, J. Ducuing, and P. Pershan, Phys. Rev. 127, 1918 (1962).
[CrossRef]

Broderick, N. G. R.

N. G. R. Broderick, G. W. Ross, H. L. Offerhaus, D. J. Richardson, and D. C. Hanna, Phys. Rev. Lett. 84, 4345 (2000).
[CrossRef]

Byer, R. L.

M. M. Fejer, G. A. Magel, D. H. Jundt, and R. L. Byer, IEEE J. Quantum Electron. 28, 2631 (1992).
[CrossRef]

Chen, J. J.

J. J. Chen and X. F. Chen, Phys. Rev. A 80, 013801 (2009).
[CrossRef]

Chen, X. F.

J. J. Chen and X. F. Chen, Phys. Rev. A 80, 013801 (2009).
[CrossRef]

Ducuing, J.

J. Armstrong, N. Bloembergen, J. Ducuing, and P. Pershan, Phys. Rev. 127, 1918 (1962).
[CrossRef]

Ellenbogen, T.

T. Ellenbogen, N. Voloch, A. Ganany-Padowicz, and A. Arie, Nat. Photonics 3, 395 (2009).
[CrossRef]

Fejer, M. M.

J. R. Kurz, A. M. Schober, D. S. Hum, A. J. Saltzman, and M. M. Fejer, IEEE. J. Sel. Top. Quantum Electron. 8, 660 (2002).
[CrossRef]

M. M. Fejer, G. A. Magel, D. H. Jundt, and R. L. Byer, IEEE J. Quantum Electron. 28, 2631 (1992).
[CrossRef]

Fragemann, A.

A. Fragemann, V. Pasiskevicius, and F. Laurell, Appl. Phys. Lett. 85, 375 (2004).
[CrossRef]

Ganany-Padowicz, A.

T. Ellenbogen, N. Voloch, A. Ganany-Padowicz, and A. Arie, Nat. Photonics 3, 395 (2009).
[CrossRef]

Hanna, D. C.

N. G. R. Broderick, G. W. Ross, H. L. Offerhaus, D. J. Richardson, and D. C. Hanna, Phys. Rev. Lett. 84, 4345 (2000).
[CrossRef]

Hu, X. P.

Y. Q. Qin, C. Zhang, Y. Y. Zhu, X. P. Hu, and G. Zhao, Phys. Rev. Lett. 100, 063902 (2008).
[CrossRef]

Hum, D. S.

J. R. Kurz, A. M. Schober, D. S. Hum, A. J. Saltzman, and M. M. Fejer, IEEE. J. Sel. Top. Quantum Electron. 8, 660 (2002).
[CrossRef]

Ito, R.

Jundt, D. H.

M. M. Fejer, G. A. Magel, D. H. Jundt, and R. L. Byer, IEEE J. Quantum Electron. 28, 2631 (1992).
[CrossRef]

Juwiler, I.

A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Opt. Lett. 37, 2136 (2012).
[CrossRef]

N. Voloch-Bloch, K. Shemer, A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Phys. Rev. Lett. 108, 233902 (2012).
[CrossRef]

A. Shapira, I. Juwiler, and A. Arie, Opt. Lett. 36, 3015 (2011).
[CrossRef]

Kitamoto, A.

Kivshar, Y. S.

Kondo, T.

Kurz, J. R.

J. R. Kurz, A. M. Schober, D. S. Hum, A. J. Saltzman, and M. M. Fejer, IEEE. J. Sel. Top. Quantum Electron. 8, 660 (2002).
[CrossRef]

Laurell, F.

A. Fragemann, V. Pasiskevicius, and F. Laurell, Appl. Phys. Lett. 85, 375 (2004).
[CrossRef]

Ma, J. C.

Magel, G. A.

M. M. Fejer, G. A. Magel, D. H. Jundt, and R. L. Byer, IEEE J. Quantum Electron. 28, 2631 (1992).
[CrossRef]

Ming, N. B.

S. N. Zhu, Y. Y. Zhu, and N. B. Ming, Science 278, 843 (1997).
[CrossRef]

Offerhaus, H. L.

N. G. R. Broderick, G. W. Ross, H. L. Offerhaus, D. J. Richardson, and D. C. Hanna, Phys. Rev. Lett. 84, 4345 (2000).
[CrossRef]

Pasiskevicius, V.

A. Fragemann, V. Pasiskevicius, and F. Laurell, Appl. Phys. Lett. 85, 375 (2004).
[CrossRef]

Pershan, P.

J. Armstrong, N. Bloembergen, J. Ducuing, and P. Pershan, Phys. Rev. 127, 1918 (1962).
[CrossRef]

Qin, Y. Q.

M. S. Zhou, J. C. Ma, C. Zhang, and Y. Q. Qin, Opt. Express 20, 1261 (2012).
[CrossRef]

Y. Q. Qin, C. Zhang, Y. Y. Zhu, X. P. Hu, and G. Zhao, Phys. Rev. Lett. 100, 063902 (2008).
[CrossRef]

Richardson, D. J.

N. G. R. Broderick, G. W. Ross, H. L. Offerhaus, D. J. Richardson, and D. C. Hanna, Phys. Rev. Lett. 84, 4345 (2000).
[CrossRef]

Ross, G. W.

N. G. R. Broderick, G. W. Ross, H. L. Offerhaus, D. J. Richardson, and D. C. Hanna, Phys. Rev. Lett. 84, 4345 (2000).
[CrossRef]

Saltiel, S.

Saltzman, A. J.

J. R. Kurz, A. M. Schober, D. S. Hum, A. J. Saltzman, and M. M. Fejer, IEEE. J. Sel. Top. Quantum Electron. 8, 660 (2002).
[CrossRef]

Schober, A. M.

J. R. Kurz, A. M. Schober, D. S. Hum, A. J. Saltzman, and M. M. Fejer, IEEE. J. Sel. Top. Quantum Electron. 8, 660 (2002).
[CrossRef]

Shapira, A.

A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Opt. Lett. 37, 2136 (2012).
[CrossRef]

N. Voloch-Bloch, K. Shemer, A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Phys. Rev. Lett. 108, 233902 (2012).
[CrossRef]

A. Shapira, I. Juwiler, and A. Arie, Opt. Lett. 36, 3015 (2011).
[CrossRef]

Shemer, K.

N. Voloch-Bloch, K. Shemer, A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Phys. Rev. Lett. 108, 233902 (2012).
[CrossRef]

Shiloh, R.

N. Voloch-Bloch, K. Shemer, A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Phys. Rev. Lett. 108, 233902 (2012).
[CrossRef]

A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Opt. Lett. 37, 2136 (2012).
[CrossRef]

Shirane, M.

Shoji, I.

Voloch, N.

T. Ellenbogen, N. Voloch, A. Ganany-Padowicz, and A. Arie, Nat. Photonics 3, 395 (2009).
[CrossRef]

Voloch-Bloch, N.

N. Voloch-Bloch, K. Shemer, A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Phys. Rev. Lett. 108, 233902 (2012).
[CrossRef]

Zhang, C.

M. S. Zhou, J. C. Ma, C. Zhang, and Y. Q. Qin, Opt. Express 20, 1261 (2012).
[CrossRef]

Y. Q. Qin, C. Zhang, Y. Y. Zhu, X. P. Hu, and G. Zhao, Phys. Rev. Lett. 100, 063902 (2008).
[CrossRef]

Zhao, G.

Y. Q. Qin, C. Zhang, Y. Y. Zhu, X. P. Hu, and G. Zhao, Phys. Rev. Lett. 100, 063902 (2008).
[CrossRef]

Zhou, M. S.

Zhu, S. N.

S. N. Zhu, Y. Y. Zhu, and N. B. Ming, Science 278, 843 (1997).
[CrossRef]

Zhu, Y. Y.

Y. Q. Qin, C. Zhang, Y. Y. Zhu, X. P. Hu, and G. Zhao, Phys. Rev. Lett. 100, 063902 (2008).
[CrossRef]

S. N. Zhu, Y. Y. Zhu, and N. B. Ming, Science 278, 843 (1997).
[CrossRef]

Appl. Phys. Lett.

A. Fragemann, V. Pasiskevicius, and F. Laurell, Appl. Phys. Lett. 85, 375 (2004).
[CrossRef]

IEEE J. Quantum Electron.

M. M. Fejer, G. A. Magel, D. H. Jundt, and R. L. Byer, IEEE J. Quantum Electron. 28, 2631 (1992).
[CrossRef]

IEEE. J. Sel. Top. Quantum Electron.

J. R. Kurz, A. M. Schober, D. S. Hum, A. J. Saltzman, and M. M. Fejer, IEEE. J. Sel. Top. Quantum Electron. 8, 660 (2002).
[CrossRef]

J. Opt. Soc. Am. B

Nat. Photonics

T. Ellenbogen, N. Voloch, A. Ganany-Padowicz, and A. Arie, Nat. Photonics 3, 395 (2009).
[CrossRef]

Opt. Express

Opt. Lett.

Phys. Rev.

J. Armstrong, N. Bloembergen, J. Ducuing, and P. Pershan, Phys. Rev. 127, 1918 (1962).
[CrossRef]

Phys. Rev. A

J. J. Chen and X. F. Chen, Phys. Rev. A 80, 013801 (2009).
[CrossRef]

Phys. Rev. Lett.

N. G. R. Broderick, G. W. Ross, H. L. Offerhaus, D. J. Richardson, and D. C. Hanna, Phys. Rev. Lett. 84, 4345 (2000).
[CrossRef]

Y. Q. Qin, C. Zhang, Y. Y. Zhu, X. P. Hu, and G. Zhao, Phys. Rev. Lett. 100, 063902 (2008).
[CrossRef]

V. Berger, Phys. Rev. Lett. 81, 4136 (1998).
[CrossRef]

N. Voloch-Bloch, K. Shemer, A. Shapira, R. Shiloh, I. Juwiler, and A. Arie, Phys. Rev. Lett. 108, 233902 (2012).
[CrossRef]

Science

S. N. Zhu, Y. Y. Zhu, and N. B. Ming, Science 278, 843 (1997).
[CrossRef]

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Figures (4)

Fig. 1.
Fig. 1.

(a) Simplified layout of the experimental setup. Part of the ferroelectric domain structures (b) calculated based on NHFP and (c) recorded by optical microscope.

Fig. 2.
Fig. 2.

Photos of the observed SHG. (a) SH versus the polarization state of the FW. (b) SH versus the incident angle of the FW. (c) Cross section of the SH along the propagating direction.

Fig. 3.
Fig. 3.

Simulated SH field distribution with (a) 0°, (b) 45°, and (c) 90° polarized FW. (d) and (e) show the amplified SH field distribution.

Fig. 4.
Fig. 4.

Fourier spectra in different regions (the domain structures are shown in the insets) along the vertical direction from top to bottom: (a) experiment and (b) calculation. (c) Local QPM diagram of processes o and e in the middle region of the sample.

Equations (2)

Equations on this page are rendered with MathJax. Learn more.

dE2ωχ(2)eiΔkxEω2dx.
{A1ox=i2k1o2A1oy2iKof(x,y)A2A1o*exp(iΔkox)A1ex=i2k1e2A1ey2iKef(x,y)A2A1e*exp(iΔkex)A2x=i2k22A2y212iKof(x,y)A1o2exp(iΔkox)12iKef(x,y)A1e2exp(iΔkex).

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