Salvador was born in Manacor, Mallorca. He graduated in Physics at the Universitat Autònoma de Barcelona, where he also obtained a PhD in Physics on the electronic structure of strongly correlated Fermi liquids. After postdoctoral stages in Palma de Mallorca and Philadelphia where he became interested in stochastic processes and Laser dynamics, he joined in 1994 the Physics Department of the Universitat de les Illes Balears, where he is Professor Catedràtic of Optics since 2006. His research interests include laser dynamics, semiconductor optical response modeling, mode-locking and multimode dynamics of lasers, multiple phase fluid dynamics and laser ablation phenomena.
Education
Ph.D. Physics | Universitat de Barcelona
Salvador’s Group Publications
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References
[1]
S. Balle, Analytical description of spectral hole-burning effects in active semiconductors, Optics Letters 27, 1923 (2002).
[2]
T. Ackemann, S. Barland, M. Cara, S. Balle, J. Tredicce, R. Jäger, M. Grabherr, M. Miller, and K. J. Ebeling, Spatial mode structure of bottom-emitting broad-area vertical-cavity surface-emitting lasers, Journal of Optics B-Quantum and Semiclassical Optics 2, 406 (2000).
[3]
A. Orfila, S. Balle, and G. Simarro, Constructive interferences as a seiche generation mechanism, Scientia Marina 75, 595 (2011).
[4]
J. Javaloyes and S. Balle, Anticolliding design for monolithic passively mode-locked semiconductor lasers, Optics Letters 36, 4407 (2011).
[5]
A. P. Serrano, Modeling Semiconductor Ring Lasers, PhD thesis, Universitat Illes Balears, 2011.
[6]
P. M. Stolarz, J. Javaloyes, G. Mezösi, L. Hou, C. N. Ironside, M. Sorel, A. C. Bryce, and S. Balle, Spectral dynamical behavior in passively mode-locked semiconductor lasers, IEEE Photonics Journal 3, 1067 (2011).
[7]
J. Javaloyes and S. Balle, All-optical directional switching of bistable semiconductor ring lasers, IEEE Journal of Quantum Electronics 47, 1078 (2011).
[8]
A. Consoli, I. Esquivias, F. J. L. Hernández, J. Mulet, and S. Balle, Characterization of gain-switched pulses from 1.55-um VCSEL, IEEE Photonics Technology Letters 22, 772 (2010).
[9]
P. M., S. Balle, D. March, J. Alós, and M. Linde, Estimating the size of circular home range from fish mark-release-(single)-recapture data: The case of a small labrid targeted by recreational fishing, Marine Ecology - Progress Series 430, 87 (2011).
[10]
A. Pérez-Serrano, J. Javaloyes, and S. Balle, Longitudinal mode multistability in ring and fabry-perot lasers: The effect of spatial hole burning, Optics Express 19, 3284 (2011).
[11]
J. Mulet, J. Javaloyes, and S. Balle, Mode-locking of VECSELs by crossed-polarization gain modulation, IEEE Journal of Quantum Electronics 43, 786 (2007).
[12]
J. Javaloyes and S. Balle, Quasiequilibrium time-domain susceptibility of semiconductor quantum wells, Physical Review A - Atomic, Molecular, and Optical Physics 81, 062505 (2010).
[13]
S. Balle, L.-A. F., and C.-Q. J., Electronic structure of ReBaCuO systems, Journal of Magnetism and Magnetic Materials 76, 579 (1988).
[14]
F. López-Aguilar, S. Balle, and J. Costa-Quintana, Dynamic potentials for unstable narrow band systems, Physica Status Solidi (B): Basic Research 149, 585 (1988).
[15]
S. Balle, F. López-Aguilar, and J. Costa-Quintana, Electronic structure of the superconducting phase of CeOs_x ru_2-x, Physica C 153-155, 1245 (1988).
[16]
F. López-Aguilar, S. Balle, and J. Costa-Quintana, Realistic treatment of the self-energy formalism in heavy-fermion metals: Application to superconducting phases of CeRu_2 and CeOs_2, Physical Review B 38, 163 (1988).
[17]
S. Balle, J. Costa-Quintana, and L.-Aguilar. F., Method for analyzing the ground state of intermediate-valence systems: Application to metallic SmS, Physical Review B 37, 6615 (1988).
[18]
B. S., C.-Q. J., and L.-A. F., F STRUCTURES IN THE NON-MAGNETIC PHASE OF CeOs//2., Journal of Physics C-Solid State Physics 20, l223 (1987).
[19]
S. Balle, F. Lopez-Aguilar, and J. Costa-Quintana, F-f and f-d pseudopotential model applied to the band structures of ce-systems, Journal of Magnetism and Magnetic Materials 63, 652 (1987).
[20]
M. J. Strain, G. Mezösi, J. Javaloyes, M. Sorel, A. Pérez-Serrano, A. Sicrè, and S. Balle, Semiconductor snail lasers, Applied Physics Letters 96, 121105 (2010).
[21]
A. Pérez-Serrano, J. Javaloyes, and S. Balle, Bi-chromatic emission and multi-mode dynamics in bidirectional ring lasers, Physical Review A - Atomic, Molecular, and Optical Physics 81, 043817 (2010).
[22]
S. Fürst, A. Pérez-Serrano, A. Scirè, M. Sorel, and S. Balle, Modal structure, directional and wavelength jumps of integrated semiconductor ring lasers: Experiment and theory, Applied Physics Letters 93, 251109 (2008).
[23]
J. Mulet, S. Balle, J. Arias, V. Martín-Hériz, and I. Esquivias, Current self-distribution effects in oxide confined vertical-cavity surface-emitting lasers, Optical and Quantum Electronics 40, 1199 (2008).
[24]
B. Cañellas, S. Balle, A. Orfila, and J. Tintoré, Wave height prediction in the western mediterranean using genetic algorithms, Ocean Engineering 37, 742 (2010).
[25]
M. A. Nieto, B. Garau, S. Balle, G. Simarro, Z. G. A., A. Ortiz, J. Tintoré, A. Álvarez-Ellacuría, L. Gómez-Pujol, and A. Orfila, An open source, low cost video-based coastal monitoring system, Earth Surface Processes and Landforms 35, 1712 (2010).
[26]
J. Alós, M. Palmer, S. Balle, A. Grau, and B. Morales-Nin, Individual growth pattern and variability in serranus scriba (linnaeus, 1758): A bayesian analysis., ICES Journal of Marine Science 67, 502 (2010).
[27]
J. Javaloyes and S. Balle, Emission directionality of semiconductor ring lasers: A traveling-wave description, IEEE Journal of Quantum Electronics 45, 431 (2009).
[28]
J. Sanchez-Naves, L. Furfaro, O. Piro, and S. Balle, Impact and permanence of LASIK-induced structural changes in the cornea on pneumotonometric measurements: Contributions of flap cutting and stromal ablation, Journal of Glaucoma 19, 611 (2008).
[29]
S. Fürst, A. Perez-Serrano, A. Scirè, M. Sorel, and S. Balle, Modal structure, directional and wavelength jumps of integrated semiconductor ring lasers:: Experiment and theory, Applied Physics Letters 93, 251109 (2008).
[30]
F. Marino, F. Marin, S. Balle, and O. Piro, Chaotically spiking canards in an excitable system with 2D inertial fast manifolds, Physical Review Letters 98, 074104 (2007).
[31]
J. Javaloyes, J. Mulet, and S. Balle, Passive mode locking of lasers by crossed-polarization gain modulation, Physical Review Letters 97, 163902 (2006).
[32]
F. Pedaci, S. Lepri, S. Balle, G. Giacomelli, M. Giudici, and J. R. Tredicce, Multiplicative noise in the longitudinal mode dynamics of a bulk semiconductor laser, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 73, 041101 (2006).
[33]
G. Van der Sande, M. Peeters, I. Veretennicoff, J. Danckaert, G. Verschaffelt, and S. Balle, The effects of stress, temperatue and spin flips on polarization switching in VCSELS, IEEE Journal of Quantum Electronics 42, 896 (2006).
[34]
J. Mulet and S. Balle, Modeling and Optimization of Vertical-External-Cavity Surface-Emitting Diode Lasers for Passive Mode-Locking, in Proceedings of the SPIE, Vol. 6184 (2006), p. 61841B.
[35]
G. van der Sande, J. Danckaert, I. Veretennicoff, K. Panajotov, and S. Balle, Analytical approximation for the quantum-well gain and refractive-index spectra of vertical-cavity surface-emitting lasers including the effect of uniaxial planar stress, Physical Review A - Atomic, Molecular, and Optical Physics 71, 063801 (2005).
[36]
L. Furfaro, F. Pedaci, J. Javaloyes, X. Hachair, M. Giudici, S. Balle, Tredicce, and J., Modal switching in quantum-well semiconductor lasers with weak optical feedback, IEEE Journal of Quantum Electronics 41, 609 (2005).
[37]
L. Furfaro, F. Pedaci, M. Giudici, X. Hachair, J. Tredicce, and S. Balle, Mode-switching in semiconductor lasers, IEEE Journal of Quantum Electronics 40, 1365 (2004).
[38]
J. Mulet and S. Balle, Mode-locking dynamics in electrically-driven vertical-external-cavity surface-emitting lasers, IEEE Journal of Quantum Electronics 41, 1148 (2005).
[39]
S. Barland, X. Hachair, M. Giudici, S. Balle, G. Tredicce J. R. Tissoni, L. Spinelli, L. Lugiato, and M. Brambilla, Spatial decorrelation in broad-area edge-emitting semiconductor amplifiers, European Physical Journal D 32, 75 (2005).
[40]
X. Hachair, S. Barland, L. Furfaro, S. Balle, J. R. Tredicce, M. Brambilla, T. Maggipinto, I. M. Perrini, G. Tissoni, and L. A. Lugiato, Cavity solitons in broad-area vertical-cavity surface-emitting lasers below threshold, Physical Review A - Atomic, Molecular, and Optical Physics 69, 043817 (2004).
[41]
A. Yacomotti, L. Furfaro, X. Hachair, F. Pedaci, M. Giudici, J. Tredicce, J. Javaloyes, S. Balle, E. A. Viktorov, and P. Mandel, Dynamics of multimode semiconductor lasers, Physical Review A - Atomic, Molecular, and Optical Physics 69, 053816 (2004).
[42]
M. F. and B. S., Excitable optical waves in semiconductor microcavities, Physical Review Letters 94, 094101 (2005).
[43]
M. F., F. L., and B. S., Cross gain modulation in broad area vertical cavity semiconductor amplifier, Applied Physics Letters 86, 151116 (2005).
[44]
F. Marino, S. Barland, and S. Balle, Single-mode operation and transverse-mode control in VCSELs induced by frequency-selective feedback, IEEE Photonics Technology Letters 15, 789 (2003).
[45]
M. Sondermann, T. Ackemann, S. Balle, J. Mulet, and K. Panajotov, Experimental and theoretical investigations on elliptically polarized dynamical transition states in the polarization switching of vertical-cavity surface-emitting lasers, Optics Communications 235, 421 (2004).
[46]
C. Marzena, M. Francesco, T. Raúl, and B. Salvador, Dynamical mechanism of anticipating synchronization in excitable systems, Physical Review Letters 93, 114102 (2004).
[47]
M. F. and B. S., Experimental study of a broad area vertical-cavity semiconductor optical amplifier, Optics Communications 231, 325 (2004).
[48]
M. F., C. G., S. P., B. S., and P. O., Thermo-optical canard-orbits and excitable limit cycles, Physical Review Letters 92, 073901 (2004).
[49]
S. Barland, O. Piro, M. Giudici, J. R. Tredicce, and S. Balle, Experimental evidence of van der pol-fitzhugh-nagumo dynamics in semiconductor optical amplifiers, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 68, 036209 (2003).
[50]
A. M. Yacomotti, G. B. Mindlin, M. Giudici, S. Balle, S. Barland, and J. Tredicce, Coupled optical excitable cells, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 66, 036227 (2002).
[51]
S. Barland, F. Marino, M. Giudici, J. Tredicce, and B. S., In situ measurements of the cavity length variation across the transverse section of broad area VCSELs, Applied Physics Letters 83, 2303 (2003).
[52]
S. Barland et al., Cavity solitons as pixels in semiconductor microresonators, Nature 419, 699 (2002).
[53]
S. Barland, M. Giudici, J. R. Tredicce, and S. Balle, Procesado óptico de información. Solitones de cavidad, Investigación y Ciencia 322 (Julio 2003, 38 (2003).
[54]
M. Sondermann, M. Weinkath, T. Ackemann, J. Mulet, and S. Balle, Two-frequency emission and polarization dynamics at lasing threshold in vertical-cavity surface-emitting lasers, Physical Review A - Atomic, Molecular, and Optical Physics 68, 033822 (2003).
[55]
M. Cara, S. Balle, and L. Occhi, Modeling and measurement of the wavelength dependent output properties of quantum-well optical amplifiers, IEEE Journal of Selected Topics in Quantum Electronics 9, 783 (2003).
[56]
M. F., G. M., B. S., and B. S., Experimental evidence of stochastic resonance in an excitable optical system, Physical Review Letters 88, 040601 (2002).
[57]
J. Mulet and S. Balle, Transverse mode dynamics in VCSELs: Spatiotemporal versus modal expansion descriptions, Physical Review A - Atomic, Molecular, and Optical Physics 66, 053802 (2002).
[58]
T. Ackemann, S. Barland, M. Giudici, J. Tredicce, S. Balle, R. Jaeger, M. Grabherr, M. Miller, and K. J. Ebeling, Patterns in broad-area microcavities, Physica Status Solidi (B): Basic Research 221, 133 (2000).
[59]
M. Sorel, A. Scire, G. Giuliani, R. Miglierina, S. Balle, P. Laybourn, and S. Donati, Alternate oscillations in semiconductor ring lasers, Optics Letters 27, 1992 (2002).
[60]
A. Valle, J. Mulet, L. Pesquera, and S. Balle, Diffusive Turn-Off Transients in Current Modulated Multitransverse Mode VCSELs, in Proceedings of the SPIE (2002), pp. 50–62.
[61]
T. Ackemann, S. Barland, S. Balle, M. Cara, J. R. Tredicce, R. Jaeger, M. Grabherr, M. Miller, and K. J. Ebeling, Spatial mode structure of bottom-emitting broad-area vertical-cavity surface-emitting lasers, Quantum and Semiclassical Optics 2, 406 (2000).
[62]
J. Mulet and S. Balle, Spatio-temporal modeling of the optical properties of VCSELs in presence of polarization effects, IEEE Journal of Quantum Electronics 38, 291 (2002).
[63]
G. Giacomelli, M. Giudici, S. Balle, and J. R. Tredicce, Experimental evidence of coherence resonance in an optical system, Physical Review Letters 84, 3298 (2000).
[64]
J. Mulet, C. R. Mirasso, S. Balle, and M. San Miguel, Transverse and Polarization Mode Selection in VCSELs, in Proceedings of the SPIE, Vol. 4283 (2001), pp. 139–149.
[65]
T. Ackemann, S. Barland, J. R. Tredicce, M. Cara, S. Balle, and R. Jager, Spatial structure of broad-area vertical-cavity regenerative amplifiers, Optics Letters 25, 814 (2000).
[66]
G. Vashenko, M. Giudici, J. J. Rocca, C. S. Menoni, J. R. Tredicce, and S. Balle, Temporal dynamics of semiconductor lasers with optical feedback, Physical Review Letters 81, 5536 (1998).
[67]
A. Gahl and S. Balle, Influence of the confinement factor on the wavelength-dependent output properties of a tapered traveling wave semiconductor amplifier, IEEE Photonics Technology Letters 11, 1375 (1999).
[68]
S. Balle, E. Tolkachova, M. S. Miguel, J. R. Tredicce, J. Martín-Regalado, and A. Gahl, MECHANISMS OF POLARIZATION SWITCHING IN SINGLE-TRANSVERSE-MODE VCSELS: THERMAL SHIFT AND NONLINEAR SEMICONDUCTOR DYNAMICS, Optics Letters 24, 1121 (1999).
[69]
M. Giudici, T. Ackemann, S. Barland, J. R. Tredicce, and S. Balle, Polarization dynamics in vertical-cavity surface-emitting lasers with optical feedback: Experiment and model, Journal of the Optical Society of America B: Optical Physics 16, 2114 (1999).
[70]
V. M. Eguiluz, E. Hernandez-Garcia, O. Piro, and S. Balle, Frozen spatial chaos induced by boundaries, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 60, 6571 (1999).
[71]
M. San Miguel, S. Balle, J. Mulet, C. R. Mirasso, E. Tolkachova, and J. R. Tredicce, Combined Effects of Semiconductor Gain Dynamics, Spin Dynamics and Thermal Shift in Polarization Selection in VCSELs, in Proceedings of the SPIE, Vol. 3944 (2000), pp. 242–251.
[72]
J. Martín-Regalado, S. Balle, and M. San Miguel, Polarization and transverse mode dynamics of gain-guided vertical-cavity surface emitting lasers, Optics Letters 22, 460 (1997).
[73]
H. van der Lem, J. Martin-Regalado, S. Balle, and C. R. Mirasso, High bit rate generation of low chirped pulses from vertical-cavity surface-emitting lasers via external axial magnetic field, IEEE Photonics Technology Letters 10, 21 (1998).
[74]
J. Martin-Regalado, S. Balle, M. San Miguel, A. Valle, and L. Pesquera, Polarization and transverse mode selection in quantum-well vertical-cavity surface-emitting lasers: Index- and gain-guided devices, Journal of Optics B-Quantum and Semiclassical Optics 9, 713 (1997).
[75]
A. Gahl, S. Balle, and M. San Miguel, Polarization properties of optically pumped VCSELs in a transverse magnetic field, Quantum and Semiclassical Optics 10, L1 (1998).
[76]
G. Huyet, S. Balle, M. Giudici, C. K. Green, G. Giacomelli, and J. R. Tredicce, Low frequency fluctuations and multimode operation of a semiconductor laser with optical feedback, Optics Communications 149, 341 (1998).
[77]
A. Valle, J. Martin-Regalado, L. Pesquera, S. Balle, and M. San Miguel, Polarization Dynamics of Birefringent Index-Guided Vertical-Cavity Surface-Emitting Lasers, in Proceedings of the SPIE, Vol. 3283 (1998), pp. 280–291.
[78]
A. Gahl, S. Balle, and M. San Miguel, Polarization dynamics of optically pumped VCSELs, IEEE Journal of Quantum Electronics 35, 342 (1999).
[79]
V. M. Eguíluz, E. Hernández-García, O. Piro, and S. Balle, Boundary induced frozen chaos, Anales de Física 4, 215 (1998).
[80]
P. García, S. S. Balle, and F. J. Bermejo, Output properties of nondegenerate parametric amplifiers with nonhomogeneous absorption losses, Journal of Modern Optics 38, 2349 (1991).
[81]
J. Costa-Quintana, L.-A. F., B. S., and S. R., Quasiparticle band structure for the hubbard systems: Application to -CeAl2, Physical Review B 41, 7096 (1990).
[82]
F. López-Aguilar, S. Balle, and J. Costa-Quintana, Quasiparticle states in f-electron compounds from the multiband hubbard model, Physical Review B 39, 9591 (1989).
[83]
J. Costa-Quintana, F. López-Aguilar, S. Balle, and R. Salvador, Electronic structure of YBa2Cu3O7-d including strong correlation effects, Physical Review B 39, 9675 (1989).
[84]
F. López-Aguilar, J. Costa-Quintana, and S. Balle, Hubbard systems with two channels for the localisation, Physica Status Solidi (B): Basic Research 152, 543 (1989).
[85]
J. Costa-Quintana, F. López-Aguilar, S. Balle, J. S. Muñoz, and A. Sánchez, Coulomb correlation effects in YCuOBa systems, Physica C 162-164, 757 (1989).
[86]
F. López-Aguilar, J. Costa-Quintana, S. Balle, M. T. Aurell, A. Sánchez, and J. S. Muñoz, Dielectric response in high-tc superconductors, Physica C 162-164, 759 (1989).
[87]
S. Balle, Simple analytical approximations for the gain and refractive index spectra in quantum-well lasers, Physical Review A - Atomic, Molecular, and Optical Physics 57, 1304 (1998).
[88]
M. Homar, M. San Miguel, and S. Balle, Semiconductor lasers with weak optical feedback: Spectral properties and frequency dependent lasers, Optics Letters 18, 1329 (1993).
[89]
J. Martin-Regalado, S. Balle, and N. B. Abraham, Spatio-temporal dynamics of gain-guided semiconductor laser arrays, IEEE Journal of Quantum Electronics 32, 257 (1996).
[90]
J. Martin-Regalado, S. Balle, and N. B. Abraham, Spatio-Temporal Dynamics of Gain-Guided Semiconductor Laser Arrays and Broad Area Lasers, in Proceedings of the SPIE, Vol. 2693 (1996), p. 369.
[91]
J. Martin-Regalado, G. H. M. van Tartwijk, S. Balle, and M. San Miguel, Effects of External Optical Feedback in Broad-Area Lasers, in Procedings, Vol. 6 (1996), pp. 205–208.
[92]
J. Martin-Regalado, G. H. M. van Tartwijk, S. Balle, and M. San Miguel, Mode control and pattern stabilization in broad-area lasers by optical feedback, Physical Review A - Atomic, Molecular, and Optical Physics 54, 5386 (1996).
[93]
D. Bromley, E. J. DAngelo, H. Grassi, C. Mathis, J. R. Tredicce, and S. Balle, Anticipation of the switch-off and delay of the switch-on of a laser with a sweeping parameter, Optics Communications 99, 65 (1993).
[94]
S. Balle, C. R. Mirasso, A. Sapia, and P. Spano, Analytical results of the switch-on time statistics in DFB laser diodes driven by ShortTriangular pulses, Applied Physics Letters 63, 1721 (1993).
[95]
S. Balestri, M. Ciofini, R. Meucci, F. T. Arecchi, P. Colet, M. San Miguel, and S. Balle, CO2 laser with swept pump parameter. The nonlinear regime, Physical Review A - Atomic, Molecular, and Optical Physics 44, 5894 (1991).
[96]
N. B. Abraham, S. S. Balle, Z. Chen, E. J. DAngelo, and J. R. Tredicce, Defect Dynamics in the Evolution of the Transverse Pattern of a Laser, in Proceedings of the SPIE (1991), pp. 156–165.
[97]
F. J. Bermejo, P. García-Fernández, S. Balle, P. Colet, R. Toral, and M. San Miguel, Langevin Equations for Squeezing by Means of Nonlinear Optical Devices, in Nonlinear Dynamics and Quantum Phenomena in Optical Systems (Springer-Verrlag, R. Vilaseca; R. Corbalán, 1991), pp. 65–73.
[98]
S. Balle, P. Colet, and M. San Miguel, Relation Between Passage Time and Maximum Intensity in Semiconductor Laser Gain Switching, in Nonlinear Dynamics and Quantum Phenomena in Optical Systems (Springer-Verlag, R. Vilaseca & R. Corbalán, 1991), pp. 293–297.
[99]
Z. Chen, N. B. Abraham, S. Balle, E. DAngelo, and J. Tredicce, Space-Time Dynamics in the Transverse Patterns of a Laser from a Model Not Restricted a Priori to a Few Modes, in Proceedings of the SPIE, Vol. 4 (1994), pp. 2–9.
[100]
E. J. DAngelo, C. Green, J. R. Tredicce, N. B. Abraham, Z. Z. Chen, and S. Balle, Symmetry breaking, dynamical pulsations and turbulence in the transverse intensity patterns of a laser: The role played by defects, Physica D 61, 6 (1992).
[101]
S. Balle, F. de Pasquale, N. B. Abraham, and M. M. San Miguel, Statistics of the transient frequency modulation in the switch-on of a single-mode semiconductor laser, Physical Review A - Atomic, Molecular, and Optical Physics 45, 1955 (1992).
[102]
S. Balle, P. Colet, and M. San Miguel, Statistics for the transient response of single-mode semiconductor laser gain switching, Physical Review A - Atomic, Molecular, and Optical Physics 43, 498 (1991).
[103]
S. Balle, M. San Miguel, and F. De Pasquale, Statistics for the Switch-on of a Laser with Injected Signal, in Procedings, Vol. 7 (1991), pp. 449–451.
[104]
S. Balle, M. Homar, and M. San Miguel, Statistical properties of the spectrum of light pulses in fast pseudorandom word modulation of a single mode semiconductor laser, IEEE Journal of Quantum Electronics 31, 1401 (1995).
[105]
P. Colet and S. Balle, Spatial Hole Burning Effects in the Emission Characteristics of DFB Laser Diodes, in Procedings, Vol. 3 (1994), pp. 108–110.
[106]
S. Balle, D. P. F., and M. San Miguel, Passage time calculation for the detection of weak signals via the transient dynamics of a laser, Physical Review A - Atomic, Molecular, and Optical Physics 41, 5012 (1990).
[107]
S. Balle, N. B. Abraham, P. Colet, and M. San Miguel, Parametric dependence of stochastic frequency variations in the gain-swtiching of a single-mode laser diode, IEEE Journal of Quantum Electronics 29, 33 (1993).
[108]
M. Homar, S. Balle, and M. San Miguel, Mode competition in a fabry perot semiconductor laser:travelling wave model with asymmetric dynamical gain, Optics Communications 131, 380 (1996).
[109]
S. Fernández-Casares, S. Balle, and P. Menéndez-Valdés, Mode beating and spontaneous emission noise effects in a variable waveguide model for the dynamics of gain-guided semiconductor laser arrays, IEEE Journal of Quantum Electronics 30, 2449 (1994).
[110]
S. Balle, M. San Miguel, F. De Pasquale, and N. B. Abraham, Intensity statistics and spatial correlation functions in a noise driven unidirectional laser amplifier, Optics Communications 85, 104 (1991).
[111]
M. C. Torrent and S. Balle, Encendido del láser y detección de señales inyectadas en láseres semiconductores, Optica Pura y Aplicada 26, 878 (1993).
[112]
S. Balle, R. Banerjee, and M. San Miguel, Effects of an intensity dependent linewidth enhancement factor on the transient spectral properties of a gain-switched single-mode semiconductor laser, IEEE Photonics Technology Letters 5, 503 (1993).
[113]
S. Balle, Effective two-level-model with asymmetric gain for laser diodes, Optics Communications 119, 227 (1995).
[114]
M. C. Torrent, S. Balle, M. San Miguel, and J. M. Sancho, Detection of a weak external signal via the switch-on time statistics of a semiconductor laser, Physical Review A - Atomic, Molecular, and Optical Physics 47, 3390 (1993).
[115]
S. Fernández-Casares, S. Balle, P. Menéndez-Valdés, and M. San Miguel, Variable Waveguide Model for Gain-Guided Laser Arrays, in Integrated Photonics Research 1994, Vol. 3 (OSA Technical Digest Series, vol. 3, 1994), pp. 354–356.
[116]
S. Balle, M. San Miguel, N. B. Abraham, J. R. Tredicce, R. Alvarez, E. DAngelo, A. Gambhir, K. Thornburg, and R. Roy, Transients in multivariable dynamical systems depend onwhich parameter is switched as illustrated in lasers, Physical Review Letters 72, 3510 (1994).