Imaging properties of dielectric photonic crystal slabs for large object distances

Guilin Sun; Aju S. Jugessur; Andrew G. Kirk

doi:10.1364/OE.14.006755

Imaging properties of dielectric photonic crystal slabs for large object distances

Guilin Sun, Aju S. Jugessur, and Andrew G. Kirk

Optics Express
Vol. 14,
Issue 15,
pp. 6755-6765
(2006)
•https://doi.org/10.1364/OE.14.006755

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Guilin Sun, Aju S. Jugessur, and Andrew G. Kirk, "Imaging properties of dielectric photonic crystal slabs for large object distances," Opt. Express 14, 6755-6765 (2006)

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Related Topics
Table of Contents Category
- Metamaterials
Optics & Photonics Topics
?

The topics in this list come from the OSA Optics and Photonics Topics applied to this article.
Previously assigned OCIS codes
- Imaging systems (110.0110)
- Image analysis (110.2960)
- Micro-optical devices (230.3990)
- Micro-optics (350.3950)
- Propagation (350.5500)

About this Article
History
- Original Manuscript: May 23, 2006
- Revised Manuscript: July 13, 2006
- Manuscript Accepted: July 14, 2006
- Published: July 24, 2006

Accessible

Open Access

Abstract

We extend the understanding of the imaging properties of dielectric photonic crystal slabs to object distances that are larger than the slab thickness. We specifically consider hexagonal crystal lattices in the second band. For object distances smaller than the slab thickness, the image distance is a negative linear function of the object distance as expected for negative refractive index materials. The effective refractive index extracted from this linear object-image relation is close to the negative unity value calculated for infinite photonic crystal using the plane wave expansion method. In contrast to previous predictions, we find that a real image can still be formed for object distances up to twice the slab thickness. In this regime the image distance changes little as the object distance increases, and can thus be described as the saturated image regime. Sub-wavelength resolution performance can be approximately maintained even for these larger object distances. The full-width half-maximum spot size at the image is approximately (0.43-0.55)λ up to object distances 1.5 times the slab thickness. By evaluating the image angular frequency spectrum we show that this sub-wavelength resolution imaging at larger object distances is due to evanescent waves that arise within the slab, rather than being directly transferred from the object. The eventual loss of image resolution is due to interference side lobes which enter the image plane.

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References

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Year
|
Author
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Publication

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[Crossref]
J.B. Pentry, “Negative Refraction Makes a Perfect Lens,” Phys. Rev.Lett. 85, 3966–3969 (2000).
[Crossref]
D.R. Smith, W.J. Padina, D.C. Vier, S.C. Nemat-Nasser, and S. Schultz, , “A composite medium with simultaneously negative permeability and permittivity,” Phys. Rev.Lett. 84, 4184–4187 (2000).
[Crossref] [PubMed]
H. Kosaka, T. Kawashima, A. Tomita, M. Notomi, T. Tamamura, T. Sato, and S. Kawakami, “Superprism phenomena in photonic crystals,” Phys. Rev. B 58, 10096–10099 (1998).
[Crossref]
B. Gralak, S. Enoch, and G. Tayeb, “Anomalous refractive properties of photonic crystals, ”J. Opt. Soc. Am. A 17, 1012–2020 (2000).
[Crossref]
M. Notomi, “Theory of light propagation in strongly modulated photonic crystals: refractionlike behavior in the vicinity of the photonic band gap,” Phys. Rev. B 62, 10696–10705 (2000).
[Crossref]
S. Enoch, G. Tayeb, and B. Gralak, “The richness of the dispersion relation of electromagnetic bandgap materials,” IEEE Trans. Antennas Propag. 51, 2659–2666 (2003).
[Crossref]
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[Crossref]
Z.-Y. Li and L.-L. Lin, “Evaluation of lensing in photonic crystal slabs exhibiting negative refraction,” Phys. Rev. B 68, 245110 (2003).
[Crossref]
X. Wang, Z.F. Ren, and K. Kempa, , “Unrestricted superlensing in a triangular two dimensional photonic crystal,” Opt. Express 12, 2919–2924(2004).
[Crossref] [PubMed]
S. He, Z. Ruan, L. Chen, and J. Shen, “Focusing properties of a photonic crystal slab with negative refraction, ” Phys. Rev. B 70, 115113, (2004).
[Crossref]
A. Martinez and J. Marti, “Negative refraction in two-dimensional photonic crystals: role of lattice orientation and interface termination,” Phys. Rev. B 71, 235115 (2005).
[Crossref]
A. Martínez, H. Míguez, J. Sánchez-Dehesa, and J. Martí, “Analysis of wave propagation in a two-dimensional photonic crystal with negative index of refraction: plane wave decomposition of the Bloch modes,” Opt. Express 13, 4160–4174 (2005).
[Crossref] [PubMed]
S. Foteinopoulou and C.M. Soukoulis, “Electromagnetic wave propagation in two-dimentional photonic crystals: a study of anomalous refractive effects,” Phys. Rev. B 72, 165112(2005)
[Crossref]
R. Gajic, R. Meisels, F. Kuchar, and K. Hingerl, “Refraction and rightness in photonic crystals,” Opt. Express 13, 8596–8605 (2005).
[Crossref] [PubMed]
J. B. Pendry and S.A. Ramakrishna, “Near-field lenses in two dimensions,” J. Phys: Condens. Matter 14, 8463–8479, 2002
[Crossref]
C. Luo, S. G. Johnson, J. D. Joannopoulos, and J. B. Pendry, , “ Subwavelength imaging in photonic crystals,” Phys. Rev. B 68, 045115 (2003).
[Crossref]
R. Moussa, S. Foteinopoulou, L. Zhang, G. Tuttle, K. Guven, E. Ozbay, and C. M. Soukoulis, “ Negative refraction and superlens behavior in a two-dimensional photonic crystal,” Phys. Rev. B 71, 085106 (2005).
[Crossref]
A. Berrier, M. Mulot, M. Swillo, M. Qiu, L. Thylen, A. Talneau, and S. Anand, “Negative Refraction at Infrared Wavelengths in a Two-Dimensional Photonic Crystal,” Phys. Rev. Lett. 93, 073902 (2004).
[Crossref] [PubMed]
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[Crossref]
E. Cubukcu, K. Aydin, E. Ozbay, S. Foteinopoloul, and C.M. Soukoulis, “Subwavelength Resolution in a Two-Dimensional Photonic-Crystal-Based Superlens, ” Phys. Rev. Lett. 91, 207401 (2003).
[Crossref] [PubMed]
Z. Lu, S. Shi, C. Schuetz, and D. Prather, “Experimental demonstration of negative refraction imaging in both amplitude and phase,” Opt. Express 13, 2007–2012 (2005).
[Crossref] [PubMed]
B. Lombardet, L. A. Dunbar, R. Ferrini, and R. Houdré, “Fourier analysis of Bloch wave propagation in photonic crystals,” J. Opt. Soc. Am. B 22, 1179–1190 (2005)
[Crossref]
S. Xiao, Z. Ruan, M. Qiu, L. Shen, and S. He, “Theoretical investigation on point imaging by photonic crystal slab using negative refraction,” Appl. Phys. Lett. 85, 4269–4271(2004).
[Crossref]
Z. Feng, X. Zhang, K. Ren, S. Feng, Z.-Y. Li, B. Cheng, and D. Zhang, “Experimental demonstration of non-near-field image formed by negative refraction,” Phys. Rev. B 73, 075118 (2006)
[Crossref]
G. Sun, A. S. Jugessur, and A. G. Kirk, “Saturated super-resolution imaging of photonic crystal with negative refraction,” in Proceedings of Optical Data Storage Topical Meeting, IEEE-LEOS, SPIE and OSA, 73–75, (2006).
Z. Ruan, M. Qiu, S. Xiao, S. He, and L. Thylen, “Coupling between plane wave and Bloch waves in photonics in photonics crystals with negative refraction,” Phys. Rev. B 71, 04511(2005)
[Crossref]
X. Wang, Z.F. Ren, and K. Kempa, “Improved superlensing in two-dimensional photonic crystals with a basis,”Appl. Phys. Lett. 86, 061105 (2005).
[Crossref]
R. Zengerla and P.C. Hoang, “Wide-angle beam refocusing using negative refraction in non-uniform photonic crystal waveguides,” Opt. Express 13, 5719–5730 (2005).
[Crossref]
S. Ponti and C. Oldano, “Open problems in the optics of crystals: The role of multiple scattering,” Phys. Rev. E 67, 036616 (2003).
[Crossref]
A.J.den Dekker and A. van den Bos, “Resolution: a survey,” J. Opt. Soc. Am. A14, 547–557, (1997)
[Crossref]
M. Born and E. Wolf, Principles of optics electromagnetic theory of propagation, interference and diffraction of light, 7th Ed., Cambridge University Press, Cambridge, UK, 1999.
J. Witzens, T. Baehr-Jones, and A. Scherer, “Hybrid superprism with low insertion losses and suppressed cross-talk,” Phys. Rev. E 71, 026604 (2005).
[Crossref]
L. Liu and S. He, “Near-field optical storage system using a solid immersion lens with a left-handed material slab,” Opt. Express 12, 4835–4840 (2004).
[Crossref] [PubMed]
S. Mimouni, Y. Desieres, S. Gidon, L. Poupinet, P. Chaton, and P. Royer, “Near-field optical storage system including evanescent wave amplifier metamaterial based on photonic crystal,” in Photonic Crystal Materials and Devices III, R. M. DE La Rue, P. Viktorovitch, C. Lopez, and M. Midrio, eds., Proc. SPIE, 6182, 61821L1-9, (2006)
[Crossref]

2006 (2)

Z. Feng, X. Zhang, K. Ren, S. Feng, Z.-Y. Li, B. Cheng, and D. Zhang, “Experimental demonstration of non-near-field image formed by negative refraction,” Phys. Rev. B 73, 075118 (2006)
[Crossref]

S. Mimouni, Y. Desieres, S. Gidon, L. Poupinet, P. Chaton, and P. Royer, “Near-field optical storage system including evanescent wave amplifier metamaterial based on photonic crystal,” in Photonic Crystal Materials and Devices III, R. M. DE La Rue, P. Viktorovitch, C. Lopez, and M. Midrio, eds., Proc. SPIE, 6182, 61821L1-9, (2006)
[Crossref]

2005 (12)

Z. Ruan, M. Qiu, S. Xiao, S. He, and L. Thylen, “Coupling between plane wave and Bloch waves in photonics in photonics crystals with negative refraction,” Phys. Rev. B 71, 04511(2005)
[Crossref]

X. Wang, Z.F. Ren, and K. Kempa, “Improved superlensing in two-dimensional photonic crystals with a basis,”Appl. Phys. Lett. 86, 061105 (2005).
[Crossref]

Z. Lu, S. Shi, C. Schuetz, and D. Prather, “Experimental demonstration of negative refraction imaging in both amplitude and phase,” Opt. Express 13, 2007–2012 (2005).
[Crossref] [PubMed]

B. Lombardet, L. A. Dunbar, R. Ferrini, and R. Houdré, “Fourier analysis of Bloch wave propagation in photonic crystals,” J. Opt. Soc. Am. B 22, 1179–1190 (2005)
[Crossref]

A. Martínez, H. Míguez, J. Sánchez-Dehesa, and J. Martí, “Analysis of wave propagation in a two-dimensional photonic crystal with negative index of refraction: plane wave decomposition of the Bloch modes,” Opt. Express 13, 4160–4174 (2005).
[Crossref] [PubMed]

R. Zengerla and P.C. Hoang, “Wide-angle beam refocusing using negative refraction in non-uniform photonic crystal waveguides,” Opt. Express 13, 5719–5730 (2005).
[Crossref]

R. Gajic, R. Meisels, F. Kuchar, and K. Hingerl, “Refraction and rightness in photonic crystals,” Opt. Express 13, 8596–8605 (2005).
[Crossref] [PubMed]

J. Witzens, T. Baehr-Jones, and A. Scherer, “Hybrid superprism with low insertion losses and suppressed cross-talk,” Phys. Rev. E 71, 026604 (2005).
[Crossref]

R. Moussa, S. Foteinopoulou, L. Zhang, G. Tuttle, K. Guven, E. Ozbay, and C. M. Soukoulis, “ Negative refraction and superlens behavior in a two-dimensional photonic crystal,” Phys. Rev. B 71, 085106 (2005).
[Crossref]

E. Schonbrun, M. Tinker, W. Park, and J.-B. Lee, “Negative refraction on a Si-Polymer photonic crystal membrane,” IEEE Photon. Technol. Lett. 17, 1196–1198 (2005).
[Crossref]

A. Martinez and J. Marti, “Negative refraction in two-dimensional photonic crystals: role of lattice orientation and interface termination,” Phys. Rev. B 71, 235115 (2005).
[Crossref]

S. Foteinopoulou and C.M. Soukoulis, “Electromagnetic wave propagation in two-dimentional photonic crystals: a study of anomalous refractive effects,” Phys. Rev. B 72, 165112(2005)
[Crossref]

2004 (5)

S. Xiao, Z. Ruan, M. Qiu, L. Shen, and S. He, “Theoretical investigation on point imaging by photonic crystal slab using negative refraction,” Appl. Phys. Lett. 85, 4269–4271(2004).
[Crossref]

S. He, Z. Ruan, L. Chen, and J. Shen, “Focusing properties of a photonic crystal slab with negative refraction, ” Phys. Rev. B 70, 115113, (2004).
[Crossref]

A. Berrier, M. Mulot, M. Swillo, M. Qiu, L. Thylen, A. Talneau, and S. Anand, “Negative Refraction at Infrared Wavelengths in a Two-Dimensional Photonic Crystal,” Phys. Rev. Lett. 93, 073902 (2004).
[Crossref] [PubMed]

X. Wang, Z.F. Ren, and K. Kempa, , “Unrestricted superlensing in a triangular two dimensional photonic crystal,” Opt. Express 12, 2919–2924(2004).
[Crossref] [PubMed]

L. Liu and S. He, “Near-field optical storage system using a solid immersion lens with a left-handed material slab,” Opt. Express 12, 4835–4840 (2004).
[Crossref] [PubMed]

2003 (5)

S. Ponti and C. Oldano, “Open problems in the optics of crystals: The role of multiple scattering,” Phys. Rev. E 67, 036616 (2003).
[Crossref]

E. Cubukcu, K. Aydin, E. Ozbay, S. Foteinopoloul, and C.M. Soukoulis, “Subwavelength Resolution in a Two-Dimensional Photonic-Crystal-Based Superlens, ” Phys. Rev. Lett. 91, 207401 (2003).
[Crossref] [PubMed]

C. Luo, S. G. Johnson, J. D. Joannopoulos, and J. B. Pendry, , “ Subwavelength imaging in photonic crystals,” Phys. Rev. B 68, 045115 (2003).
[Crossref]

S. Enoch, G. Tayeb, and B. Gralak, “The richness of the dispersion relation of electromagnetic bandgap materials,” IEEE Trans. Antennas Propag. 51, 2659–2666 (2003).
[Crossref]

Z.-Y. Li and L.-L. Lin, “Evaluation of lensing in photonic crystal slabs exhibiting negative refraction,” Phys. Rev. B 68, 245110 (2003).
[Crossref]

2002 (2)

J. B. Pendry and S.A. Ramakrishna, “Near-field lenses in two dimensions,” J. Phys: Condens. Matter 14, 8463–8479, 2002
[Crossref]

C. Luo, S.G. Johnson, J.D. Joannopoulos, and J.B. Pendry, “All-angle negative refraction without negative effective index,” Phys. Rev. B 65, 201104 (2002).
[Crossref]

2000 (4)

J.B. Pentry, “Negative Refraction Makes a Perfect Lens,” Phys. Rev.Lett. 85, 3966–3969 (2000).
[Crossref]

D.R. Smith, W.J. Padina, D.C. Vier, S.C. Nemat-Nasser, and S. Schultz, , “A composite medium with simultaneously negative permeability and permittivity,” Phys. Rev.Lett. 84, 4184–4187 (2000).
[Crossref] [PubMed]

M. Notomi, “Theory of light propagation in strongly modulated photonic crystals: refractionlike behavior in the vicinity of the photonic band gap,” Phys. Rev. B 62, 10696–10705 (2000).
[Crossref]

B. Gralak, S. Enoch, and G. Tayeb, “Anomalous refractive properties of photonic crystals, ”J. Opt. Soc. Am. A 17, 1012–2020 (2000).
[Crossref]

1998 (1)

H. Kosaka, T. Kawashima, A. Tomita, M. Notomi, T. Tamamura, T. Sato, and S. Kawakami, “Superprism phenomena in photonic crystals,” Phys. Rev. B 58, 10096–10099 (1998).
[Crossref]

1997 (1)

A.J.den Dekker and A. van den Bos, “Resolution: a survey,” J. Opt. Soc. Am. A14, 547–557, (1997)
[Crossref]

1964 (1)

V. Veselago, “The electrodynamics of substances with simultaneously negative values of ε and μ,” Soviet Phys.Uspekhi 10, 509–514 (1968, in Russian,1964).
[Crossref]

Anand, S.

Aydin, K.

Baehr-Jones, T.

J. Witzens, T. Baehr-Jones, and A. Scherer, “Hybrid superprism with low insertion losses and suppressed cross-talk,” Phys. Rev. E 71, 026604 (2005).
[Crossref]

Berrier, A.

Born, M.

M. Born and E. Wolf, Principles of optics electromagnetic theory of propagation, interference and diffraction of light, 7th Ed., Cambridge University Press, Cambridge, UK, 1999.

Bos, A. van den

A.J.den Dekker and A. van den Bos, “Resolution: a survey,” J. Opt. Soc. Am. A14, 547–557, (1997)
[Crossref]

Chaton, P.

Chen, L.

S. He, Z. Ruan, L. Chen, and J. Shen, “Focusing properties of a photonic crystal slab with negative refraction, ” Phys. Rev. B 70, 115113, (2004).
[Crossref]

Cheng, B.

Z. Feng, X. Zhang, K. Ren, S. Feng, Z.-Y. Li, B. Cheng, and D. Zhang, “Experimental demonstration of non-near-field image formed by negative refraction,” Phys. Rev. B 73, 075118 (2006)
[Crossref]

Cubukcu, E.

Dekker, A.J.den

A.J.den Dekker and A. van den Bos, “Resolution: a survey,” J. Opt. Soc. Am. A14, 547–557, (1997)
[Crossref]

Desieres, Y.

Dunbar, L. A.

B. Lombardet, L. A. Dunbar, R. Ferrini, and R. Houdré, “Fourier analysis of Bloch wave propagation in photonic crystals,” J. Opt. Soc. Am. B 22, 1179–1190 (2005)
[Crossref]

Enoch, S.

S. Enoch, G. Tayeb, and B. Gralak, “The richness of the dispersion relation of electromagnetic bandgap materials,” IEEE Trans. Antennas Propag. 51, 2659–2666 (2003).
[Crossref]

B. Gralak, S. Enoch, and G. Tayeb, “Anomalous refractive properties of photonic crystals, ”J. Opt. Soc. Am. A 17, 1012–2020 (2000).
[Crossref]

Feng, S.

Z. Feng, X. Zhang, K. Ren, S. Feng, Z.-Y. Li, B. Cheng, and D. Zhang, “Experimental demonstration of non-near-field image formed by negative refraction,” Phys. Rev. B 73, 075118 (2006)
[Crossref]

Feng, Z.

Z. Feng, X. Zhang, K. Ren, S. Feng, Z.-Y. Li, B. Cheng, and D. Zhang, “Experimental demonstration of non-near-field image formed by negative refraction,” Phys. Rev. B 73, 075118 (2006)
[Crossref]

Ferrini, R.

B. Lombardet, L. A. Dunbar, R. Ferrini, and R. Houdré, “Fourier analysis of Bloch wave propagation in photonic crystals,” J. Opt. Soc. Am. B 22, 1179–1190 (2005)
[Crossref]

Foteinopoloul, S.

Foteinopoulou, S.

S. Foteinopoulou and C.M. Soukoulis, “Electromagnetic wave propagation in two-dimentional photonic crystals: a study of anomalous refractive effects,” Phys. Rev. B 72, 165112(2005)
[Crossref]

Gajic, R.

R. Gajic, R. Meisels, F. Kuchar, and K. Hingerl, “Refraction and rightness in photonic crystals,” Opt. Express 13, 8596–8605 (2005).
[Crossref] [PubMed]

Gidon, S.

Gralak, B.

S. Enoch, G. Tayeb, and B. Gralak, “The richness of the dispersion relation of electromagnetic bandgap materials,” IEEE Trans. Antennas Propag. 51, 2659–2666 (2003).
[Crossref]

B. Gralak, S. Enoch, and G. Tayeb, “Anomalous refractive properties of photonic crystals, ”J. Opt. Soc. Am. A 17, 1012–2020 (2000).
[Crossref]

Guven, K.

He, S.

Z. Ruan, M. Qiu, S. Xiao, S. He, and L. Thylen, “Coupling between plane wave and Bloch waves in photonics in photonics crystals with negative refraction,” Phys. Rev. B 71, 04511(2005)
[Crossref]

L. Liu and S. He, “Near-field optical storage system using a solid immersion lens with a left-handed material slab,” Opt. Express 12, 4835–4840 (2004).
[Crossref] [PubMed]

S. Xiao, Z. Ruan, M. Qiu, L. Shen, and S. He, “Theoretical investigation on point imaging by photonic crystal slab using negative refraction,” Appl. Phys. Lett. 85, 4269–4271(2004).
[Crossref]

S. He, Z. Ruan, L. Chen, and J. Shen, “Focusing properties of a photonic crystal slab with negative refraction, ” Phys. Rev. B 70, 115113, (2004).
[Crossref]

Joannopoulos, J. D.

C. Luo, S. G. Johnson, J. D. Joannopoulos, and J. B. Pendry, , “ Subwavelength imaging in photonic crystals,” Phys. Rev. B 68, 045115 (2003).
[Crossref]

Joannopoulos, J.D.

C. Luo, S.G. Johnson, J.D. Joannopoulos, and J.B. Pendry, “All-angle negative refraction without negative effective index,” Phys. Rev. B 65, 201104 (2002).
[Crossref]

Johnson, S. G.

C. Luo, S. G. Johnson, J. D. Joannopoulos, and J. B. Pendry, , “ Subwavelength imaging in photonic crystals,” Phys. Rev. B 68, 045115 (2003).
[Crossref]

Johnson, S.G.

C. Luo, S.G. Johnson, J.D. Joannopoulos, and J.B. Pendry, “All-angle negative refraction without negative effective index,” Phys. Rev. B 65, 201104 (2002).
[Crossref]

Jugessur, A. S.

G. Sun, A. S. Jugessur, and A. G. Kirk, “Saturated super-resolution imaging of photonic crystal with negative refraction,” in Proceedings of Optical Data Storage Topical Meeting, IEEE-LEOS, SPIE and OSA, 73–75, (2006).

Kawakami, S.

H. Kosaka, T. Kawashima, A. Tomita, M. Notomi, T. Tamamura, T. Sato, and S. Kawakami, “Superprism phenomena in photonic crystals,” Phys. Rev. B 58, 10096–10099 (1998).
[Crossref]

Kawashima, T.

H. Kosaka, T. Kawashima, A. Tomita, M. Notomi, T. Tamamura, T. Sato, and S. Kawakami, “Superprism phenomena in photonic crystals,” Phys. Rev. B 58, 10096–10099 (1998).
[Crossref]

Kempa, K.

X. Wang, Z.F. Ren, and K. Kempa, “Improved superlensing in two-dimensional photonic crystals with a basis,”Appl. Phys. Lett. 86, 061105 (2005).
[Crossref]

X. Wang, Z.F. Ren, and K. Kempa, , “Unrestricted superlensing in a triangular two dimensional photonic crystal,” Opt. Express 12, 2919–2924(2004).
[Crossref] [PubMed]

Kirk, A. G.

Kosaka, H.

H. Kosaka, T. Kawashima, A. Tomita, M. Notomi, T. Tamamura, T. Sato, and S. Kawakami, “Superprism phenomena in photonic crystals,” Phys. Rev. B 58, 10096–10099 (1998).
[Crossref]

Kuchar, F.

R. Gajic, R. Meisels, F. Kuchar, and K. Hingerl, “Refraction and rightness in photonic crystals,” Opt. Express 13, 8596–8605 (2005).
[Crossref] [PubMed]

Lee, J.-B.

E. Schonbrun, M. Tinker, W. Park, and J.-B. Lee, “Negative refraction on a Si-Polymer photonic crystal membrane,” IEEE Photon. Technol. Lett. 17, 1196–1198 (2005).
[Crossref]

Li, Z.-Y.

Z. Feng, X. Zhang, K. Ren, S. Feng, Z.-Y. Li, B. Cheng, and D. Zhang, “Experimental demonstration of non-near-field image formed by negative refraction,” Phys. Rev. B 73, 075118 (2006)
[Crossref]

Z.-Y. Li and L.-L. Lin, “Evaluation of lensing in photonic crystal slabs exhibiting negative refraction,” Phys. Rev. B 68, 245110 (2003).
[Crossref]

Lin, L.-L.

Z.-Y. Li and L.-L. Lin, “Evaluation of lensing in photonic crystal slabs exhibiting negative refraction,” Phys. Rev. B 68, 245110 (2003).
[Crossref]

Liu, L.

L. Liu and S. He, “Near-field optical storage system using a solid immersion lens with a left-handed material slab,” Opt. Express 12, 4835–4840 (2004).
[Crossref] [PubMed]

Lombardet, B.

B. Lombardet, L. A. Dunbar, R. Ferrini, and R. Houdré, “Fourier analysis of Bloch wave propagation in photonic crystals,” J. Opt. Soc. Am. B 22, 1179–1190 (2005)
[Crossref]

Lu, Z.

Z. Lu, S. Shi, C. Schuetz, and D. Prather, “Experimental demonstration of negative refraction imaging in both amplitude and phase,” Opt. Express 13, 2007–2012 (2005).
[Crossref] [PubMed]

Luo, C.

C. Luo, S. G. Johnson, J. D. Joannopoulos, and J. B. Pendry, , “ Subwavelength imaging in photonic crystals,” Phys. Rev. B 68, 045115 (2003).
[Crossref]

C. Luo, S.G. Johnson, J.D. Joannopoulos, and J.B. Pendry, “All-angle negative refraction without negative effective index,” Phys. Rev. B 65, 201104 (2002).
[Crossref]

Marti, J.

A. Martinez and J. Marti, “Negative refraction in two-dimensional photonic crystals: role of lattice orientation and interface termination,” Phys. Rev. B 71, 235115 (2005).
[Crossref]

Martí, J.

Martinez, A.

A. Martinez and J. Marti, “Negative refraction in two-dimensional photonic crystals: role of lattice orientation and interface termination,” Phys. Rev. B 71, 235115 (2005).
[Crossref]

Martínez, A.

Meisels, R.

R. Gajic, R. Meisels, F. Kuchar, and K. Hingerl, “Refraction and rightness in photonic crystals,” Opt. Express 13, 8596–8605 (2005).
[Crossref] [PubMed]

Míguez, H.

Mimouni, S.

Moussa, R.

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Phys. Rev. B (11)