E. Abraham, “Modelling of regenerative pulsations in an InSb etalon,” Opt. Comm. 61, 282ߝ286 (1987) and references quoted therein.

[Crossref]

B. Schaepers, M. Feldmann, T. Ackemannand, and W. Lange, “Interaction of Localized Structures in an Optical Pattern-Forming System,” Phys. Rev. Lett. 85, 748ߝ751 (2000).

[Crossref]

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

S. Barland, O. Piro, S. Balle, M. Giudici, and J. Tredicce, “Thermo-optical pulsation in semiconductor lasers with injected signal: Relaxation oscillations, excitability, phase-locking and coherence resonance,” preprint.

S. Barland, O. Piro, S. Balle, M. Giudici, and J. Tredicce, “Thermo-optical pulsation in semiconductor lasers with injected signal: Relaxation oscillations, excitability, phase-locking and coherence resonance,” preprint.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal effects and transverse structures in semiconductor microcavities with population inversion,” Phys. Rev. A 66, 023817 (2002).

[Crossref]

L. Spinelli, G. Tissoni, M. Tarenghi, and M. Brambilla, “First principle theory for cavity solitons in semiconductor microresonators,” Eur. Phys. J. D 15, 257ߝ266 (2001) and references quoted therein.

[Crossref]

L. Spinelli, G. Tissoni, M. Brambilla, F. Prati, and L. A. Lugiato, “Spatial solitons in semiconductor microcavities,” Phys. Rev. A 58, 2542ߝ2559 (1998) and references quoted therein.

[Crossref]

M. Brambilla, L. A. Lugiato, and M. Stefani, “Interaction and control of optical localized structures,” Europhys. Lett. 34, 109ߝ114 (1996).

[Crossref]

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal instabilites in semiconductor amplifiers,” submitted to J. Mod. Opt., special issue for the Proceedings of the Physics of Quantum Electronics Conference (Snowbird USA January6ߝ10, 2002) edited by R. W. Boyd and M. O. Scully.

L. A. Lugiato, M. Brambilla, and A. Gatti, “Optical Pattern Formation,” in Advances in Atomic, Molecular and Optical Physics, Vol. 40, edited by B. Bederson and H. Walther , Academic Press, 1998, pp. 229ߝ306, and references quoted therein.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

B. Schaepers, M. Feldmann, T. Ackemannand, and W. Lange, “Interaction of Localized Structures in an Optical Pattern-Forming System,” Phys. Rev. Lett. 85, 748ߝ751 (2000).

[Crossref]

W. J. Firth and A. J. Scroggie, “Optical bullet holes: robust controllable localized states of a nonlinear cavity,” Phys. Rev. Lett. 76, 1623ߝ1626 (1996).

[Crossref]
[PubMed]

A. J. Scroggie, J. M. McSloy, and W. J. Firth, “Self-Propelled Cavity Solitons in Semiconductor Microcavities,” submitted to Phys. Rev. E.

L. A. Lugiato, M. Brambilla, and A. Gatti, “Optical Pattern Formation,” in Advances in Atomic, Molecular and Optical Physics, Vol. 40, edited by B. Bederson and H. Walther , Academic Press, 1998, pp. 229ߝ306, and references quoted therein.

S. Barland, O. Piro, S. Balle, M. Giudici, and J. Tredicce, “Thermo-optical pulsation in semiconductor lasers with injected signal: Relaxation oscillations, excitability, phase-locking and coherence resonance,” preprint.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

T. Rossler, R. A. Indik, G. K. Harkness, J. V. Moloney, and C. Z. Ning, “Modeling the interplay of thermal effects and transverse mode behavior in native-oxide-confined vertical-cavity surface-emitting lasers,” Phys. Rev. A 58, 3279ߝ3292 (1998).

[Crossref]

T. Rossler, R. A. Indik, G. K. Harkness, J. V. Moloney, and C. Z. Ning, “Modeling the interplay of thermal effects and transverse mode behavior in native-oxide-confined vertical-cavity surface-emitting lasers,” Phys. Rev. A 58, 3279ߝ3292 (1998).

[Crossref]

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

N. N. Rosanov and G. V. Khodova, “Autosolitons in bistable interferometers,” Opt. Spectrosc. 65, 449ߝ450 (1988).

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

R. Kuszelewicz et al., 2nd yearly report of the PIANOS Project (2000). I. Ganne, Ph. D. Thesis (2000).

B. Schaepers, M. Feldmann, T. Ackemannand, and W. Lange, “Interaction of Localized Structures in an Optical Pattern-Forming System,” Phys. Rev. Lett. 85, 748ߝ751 (2000).

[Crossref]

M. Tlidi, P. Mandel, and R. Lefever, “Localized structures and localized patterns in optical bistability,” Phys. Rev. Lett. 73, 640ߝ643 (1994).

[Crossref]
[PubMed]

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal effects and transverse structures in semiconductor microcavities with population inversion,” Phys. Rev. A 66, 023817 (2002).

[Crossref]

L. Spinelli, G. Tissoni, M. Brambilla, F. Prati, and L. A. Lugiato, “Spatial solitons in semiconductor microcavities,” Phys. Rev. A 58, 2542ߝ2559 (1998) and references quoted therein.

[Crossref]

M. Brambilla, L. A. Lugiato, and M. Stefani, “Interaction and control of optical localized structures,” Europhys. Lett. 34, 109ߝ114 (1996).

[Crossref]

L. A. Lugiato, M. Brambilla, and A. Gatti, “Optical Pattern Formation,” in Advances in Atomic, Molecular and Optical Physics, Vol. 40, edited by B. Bederson and H. Walther , Academic Press, 1998, pp. 229ߝ306, and references quoted therein.

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal instabilites in semiconductor amplifiers,” submitted to J. Mod. Opt., special issue for the Proceedings of the Physics of Quantum Electronics Conference (Snowbird USA January6ߝ10, 2002) edited by R. W. Boyd and M. O. Scully.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

M. Tlidi, P. Mandel, and R. Lefever, “Localized structures and localized patterns in optical bistability,” Phys. Rev. Lett. 73, 640ߝ643 (1994).

[Crossref]
[PubMed]

A. J. Scroggie, J. M. McSloy, and W. J. Firth, “Self-Propelled Cavity Solitons in Semiconductor Microcavities,” submitted to Phys. Rev. E.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

T. Rossler, R. A. Indik, G. K. Harkness, J. V. Moloney, and C. Z. Ning, “Modeling the interplay of thermal effects and transverse mode behavior in native-oxide-confined vertical-cavity surface-emitting lasers,” Phys. Rev. A 58, 3279ߝ3292 (1998).

[Crossref]

T. Rossler, R. A. Indik, G. K. Harkness, J. V. Moloney, and C. Z. Ning, “Modeling the interplay of thermal effects and transverse mode behavior in native-oxide-confined vertical-cavity surface-emitting lasers,” Phys. Rev. A 58, 3279ߝ3292 (1998).

[Crossref]

S. Barland, O. Piro, S. Balle, M. Giudici, and J. Tredicce, “Thermo-optical pulsation in semiconductor lasers with injected signal: Relaxation oscillations, excitability, phase-locking and coherence resonance,” preprint.

L. Spinelli, G. Tissoni, M. Brambilla, F. Prati, and L. A. Lugiato, “Spatial solitons in semiconductor microcavities,” Phys. Rev. A 58, 2542ߝ2559 (1998) and references quoted therein.

[Crossref]

N. N. Rosanov and G. V. Khodova, “Autosolitons in bistable interferometers,” Opt. Spectrosc. 65, 449ߝ450 (1988).

T. Rossler, R. A. Indik, G. K. Harkness, J. V. Moloney, and C. Z. Ning, “Modeling the interplay of thermal effects and transverse mode behavior in native-oxide-confined vertical-cavity surface-emitting lasers,” Phys. Rev. A 58, 3279ߝ3292 (1998).

[Crossref]

B. Schaepers, M. Feldmann, T. Ackemannand, and W. Lange, “Interaction of Localized Structures in an Optical Pattern-Forming System,” Phys. Rev. Lett. 85, 748ߝ751 (2000).

[Crossref]

W. J. Firth and A. J. Scroggie, “Optical bullet holes: robust controllable localized states of a nonlinear cavity,” Phys. Rev. Lett. 76, 1623ߝ1626 (1996).

[Crossref]
[PubMed]

A. J. Scroggie, J. M. McSloy, and W. J. Firth, “Self-Propelled Cavity Solitons in Semiconductor Microcavities,” submitted to Phys. Rev. E.

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal effects and transverse structures in semiconductor microcavities with population inversion,” Phys. Rev. A 66, 023817 (2002).

[Crossref]

L. Spinelli, G. Tissoni, M. Tarenghi, and M. Brambilla, “First principle theory for cavity solitons in semiconductor microresonators,” Eur. Phys. J. D 15, 257ߝ266 (2001) and references quoted therein.

[Crossref]

L. Spinelli, G. Tissoni, M. Brambilla, F. Prati, and L. A. Lugiato, “Spatial solitons in semiconductor microcavities,” Phys. Rev. A 58, 2542ߝ2559 (1998) and references quoted therein.

[Crossref]

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal instabilites in semiconductor amplifiers,” submitted to J. Mod. Opt., special issue for the Proceedings of the Physics of Quantum Electronics Conference (Snowbird USA January6ߝ10, 2002) edited by R. W. Boyd and M. O. Scully.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

V. B. Taranenko, K. Staliunas, and C. O. Weiss, “Spatial soliton laser: localized structures in a laser with a saturable absorber in a self-imaging resonator,” Phys. Rev. A 56, 1582ߝ1591 (1997).

[Crossref]

M. Brambilla, L. A. Lugiato, and M. Stefani, “Interaction and control of optical localized structures,” Europhys. Lett. 34, 109ߝ114 (1996).

[Crossref]

V. B. Taranenko, K. Staliunas, and C. O. Weiss, “Spatial soliton laser: localized structures in a laser with a saturable absorber in a self-imaging resonator,” Phys. Rev. A 56, 1582ߝ1591 (1997).

[Crossref]

L. Spinelli, G. Tissoni, M. Tarenghi, and M. Brambilla, “First principle theory for cavity solitons in semiconductor microresonators,” Eur. Phys. J. D 15, 257ߝ266 (2001) and references quoted therein.

[Crossref]

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal effects and transverse structures in semiconductor microcavities with population inversion,” Phys. Rev. A 66, 023817 (2002).

[Crossref]

L. Spinelli, G. Tissoni, M. Tarenghi, and M. Brambilla, “First principle theory for cavity solitons in semiconductor microresonators,” Eur. Phys. J. D 15, 257ߝ266 (2001) and references quoted therein.

[Crossref]

L. Spinelli, G. Tissoni, M. Brambilla, F. Prati, and L. A. Lugiato, “Spatial solitons in semiconductor microcavities,” Phys. Rev. A 58, 2542ߝ2559 (1998) and references quoted therein.

[Crossref]

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal instabilites in semiconductor amplifiers,” submitted to J. Mod. Opt., special issue for the Proceedings of the Physics of Quantum Electronics Conference (Snowbird USA January6ߝ10, 2002) edited by R. W. Boyd and M. O. Scully.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

M. Tlidi, P. Mandel, and R. Lefever, “Localized structures and localized patterns in optical bistability,” Phys. Rev. Lett. 73, 640ߝ643 (1994).

[Crossref]
[PubMed]

S. Barland, O. Piro, S. Balle, M. Giudici, and J. Tredicce, “Thermo-optical pulsation in semiconductor lasers with injected signal: Relaxation oscillations, excitability, phase-locking and coherence resonance,” preprint.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

V. B. Taranenko, K. Staliunas, and C. O. Weiss, “Spatial soliton laser: localized structures in a laser with a saturable absorber in a self-imaging resonator,” Phys. Rev. A 56, 1582ߝ1591 (1997).

[Crossref]

L. Spinelli, G. Tissoni, M. Tarenghi, and M. Brambilla, “First principle theory for cavity solitons in semiconductor microresonators,” Eur. Phys. J. D 15, 257ߝ266 (2001) and references quoted therein.

[Crossref]

M. Brambilla, L. A. Lugiato, and M. Stefani, “Interaction and control of optical localized structures,” Europhys. Lett. 34, 109ߝ114 (1996).

[Crossref]

E. Abraham, “Modelling of regenerative pulsations in an InSb etalon,” Opt. Comm. 61, 282ߝ286 (1987) and references quoted therein.

[Crossref]

N. N. Rosanov and G. V. Khodova, “Autosolitons in bistable interferometers,” Opt. Spectrosc. 65, 449ߝ450 (1988).

L. Spinelli, G. Tissoni, M. Brambilla, F. Prati, and L. A. Lugiato, “Spatial solitons in semiconductor microcavities,” Phys. Rev. A 58, 2542ߝ2559 (1998) and references quoted therein.

[Crossref]

V. B. Taranenko, K. Staliunas, and C. O. Weiss, “Spatial soliton laser: localized structures in a laser with a saturable absorber in a self-imaging resonator,” Phys. Rev. A 56, 1582ߝ1591 (1997).

[Crossref]

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal effects and transverse structures in semiconductor microcavities with population inversion,” Phys. Rev. A 66, 023817 (2002).

[Crossref]

T. Rossler, R. A. Indik, G. K. Harkness, J. V. Moloney, and C. Z. Ning, “Modeling the interplay of thermal effects and transverse mode behavior in native-oxide-confined vertical-cavity surface-emitting lasers,” Phys. Rev. A 58, 3279ߝ3292 (1998).

[Crossref]

B. Schaepers, M. Feldmann, T. Ackemannand, and W. Lange, “Interaction of Localized Structures in an Optical Pattern-Forming System,” Phys. Rev. Lett. 85, 748ߝ751 (2000).

[Crossref]

M. Tlidi, P. Mandel, and R. Lefever, “Localized structures and localized patterns in optical bistability,” Phys. Rev. Lett. 73, 640ߝ643 (1994).

[Crossref]
[PubMed]

W. J. Firth and A. J. Scroggie, “Optical bullet holes: robust controllable localized states of a nonlinear cavity,” Phys. Rev. Lett. 76, 1623ߝ1626 (1996).

[Crossref]
[PubMed]

L. A. Lugiato, M. Brambilla, and A. Gatti, “Optical Pattern Formation,” in Advances in Atomic, Molecular and Optical Physics, Vol. 40, edited by B. Bederson and H. Walther , Academic Press, 1998, pp. 229ߝ306, and references quoted therein.

S. Barland, J.R. Tredicce, M. Brambilla, L. A. Lugiato, S. Balle, M. Giudici, T. Maggipinto, L. Spinelli, G. Tissoni, T. Koedl, M. Miller, and R. Jaeger, “Cavity solitons work as pixels in semiconductors,” Nature, to appear. See also references quoted therein.

A. J. Scroggie, J. M. McSloy, and W. J. Firth, “Self-Propelled Cavity Solitons in Semiconductor Microcavities,” submitted to Phys. Rev. E.

S. Barland, O. Piro, S. Balle, M. Giudici, and J. Tredicce, “Thermo-optical pulsation in semiconductor lasers with injected signal: Relaxation oscillations, excitability, phase-locking and coherence resonance,” preprint.

R. Kuszelewicz et al., 2nd yearly report of the PIANOS Project (2000). I. Ganne, Ph. D. Thesis (2000).

L. Spinelli, G. Tissoni, L. A. Lugiato, and M. Brambilla, “Thermal instabilites in semiconductor amplifiers,” submitted to J. Mod. Opt., special issue for the Proceedings of the Physics of Quantum Electronics Conference (Snowbird USA January6ߝ10, 2002) edited by R. W. Boyd and M. O. Scully.