Copyright 2017 - Site designed and maintained by: Ariel Díaz De Armas

Catedrático
(Full Professor)

Office: 2.1D15 (Edificio Sabatini)
Phone: +34 916248826
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  • Array imaging
  1. M. Moscoso, A. Novikov, G. Papanicolaou, "Multifrequency interferometric imaging with intensity-only measurements"  SIAM Journal of Imaging Science 10, pp. 1005-1032 (2017).  
  2. M. Moscoso, A. Novikov, G. Papanicolaou, "Coherent imaging without phases,"  SIAM Journal of Imaging Science 9, pp. 1689-1707 (2016).  
  3. A. Chai, M. Moscoso, G. Papanicolaou, "Array imaging of localized objects in homogeneous and heterogeneous media," Inverse Problems 32 (10), 104003 (2016).
  4. L. Borcea, M. Moscoso, G. Papanicolaou, C. Tsogka, "Synthetic aperture imaging of direction and frequency dependent reflectivities,"  SIAM Journal of Imaging Science 9, pp. 52-81 (2016) . 
  5. A. Novikov, M. Moscoso, G. Papanicolaou, "Illumination strategies for intensity-only imaging,"  SIAM Journal of Imaging Science 8, pp. 1547-1573 (2015).  
  6. A. Chai, M. Moscoso, G. Papanicolaou, "Imaging strong localized scatterers with sparsity optimization," SIAM Journal of Imaging Science  7, pp. 1358-1387 (2014).  
  7. A. Chai, M. Moscoso, G. Papanicolaou, "Robust imaging of localized scatterers using thesingular value decomposition and l1 minimization," Inverse Problems 29, 025016 (2013). 
  8. M. Moscoso, A. Novikov, G. Papanicolaou, L. Ryzhik "A differential equations approach to l1-minimization with applications to array imaging," Inverse Problems 28 , 105001 (2012). 
  9. A. Chai, M. Moscoso, G. Papanicolaou, "Array imaging using intensity-only measurements," Inverse Problems 27 , 015005 (2011).  
  • Scientific computing 
  1. M. Kindelan, M. Moscoso, P. Gonzalez-Rodriguez "Radial basis functions interpolation in the limit of increasingly flat basis functions", Journal of Computational Physics 307, pp. 225--242 (2016).
  2. P. Gonzalez-Rodriguez, M. Moscoso, and M. Kindelan, "Laurent expansion of the inverse of perturbed, singular matrices ", Journal of Computational Physics 299, pp. 307--319 (2015).
  3. P. Gonzalez-Rodriguez, V. Bayona, M. Moscoso, and M. Kindelan, "Laurent series based RBF-FD method to avoid ill-conditioning ", Engineering Analysis with Boundary Elements 52, pp. 24-51 (2015).
  4. V. Bayona, M. Moscoso, and M. Kindelan, "Gaussian RBF-FD weights and its corresponding local truncation errors", Engineering Analysis with Boundary Elements 36, pp. 1361-1369 (2012).
  5. V. Bayona, M. Moscoso, and M. Kindelan, "Optimal variable shape parameter for multiquadric based RBF-FD methods," J. Comput. Phys. 231 (6), pp. 2466-2481 (2012).
  6. V. Bayona, M. Moscoso, and M. Kindelan, "Optimal constant shape parameter for multiquadric based RBF-FD methods," J. Comput. Phys. 230 (19), pp. 7384-7399 (2011).
  7. M. Kindelan, F. Bernal, P. Gonzalez-Rodriguez and M. Moscoso, "Application of the RBF meshless method to the solution of the radiative transport equation," J. Comput. Phys. 229 (5), pp. 1897-1908 (2010).
  8. V. Bayona, M. Moscoso, M. Carretero and M. Kindelan, "RBF-FD formulas and convergence properties," J. Comput. Phys. 229 (22), pp. 8281-8295 (2010).
  9. A. D. Kim and M. Moscoso, "Radiative transfer computations for optical beams," J. Comput. Phys. 185, pp. 50-60 (2003).
  10. A. D. Kim and M. Moscoso, "Chebyshev spectral methods for radiative transfer," SIAM Journal of Scientific Computing 23, pp. 2075-2095 (2002).
  • Biomedical optics
  1. P. Gonzalez-Rodriguez, A. D. Kim and M. Moscoso, "Robust depth selectivity in mesoscopic scattering regimes using angle-resolved measurements," Optics Letters 38 , pp. 787-789 (2013).
  2. N. Irishina, M. Moscoso, and R. Carminati, "Recovering fluorophore location and orientation from lifetimes ," Optics Express 21 (1), pp. 421-430 (2013).
  3. N. Irishina, M. Moscoso, and R. Carminati, " Source location from fluorescence lifetime in disordered media," Optics Letters 37 (5), pp. 951-953 (2012).
  4. P. González-Rodríguez, D. Álvarez, M. Moscoso and A.D. Kim, "Combining diffuse optical tomography and spectroscopy to detect and characterize lesions in tissues," Journal of the Optical Society of America A, 29 (4), pp. 450-456 (2012).
  5. A. D. Kim and M. Moscoso, "Diffusion of polarized light," Multiscale Modeling & Simulation 9 (4), pp. 1624-1645 (2011).
  6. D. Álvarez, P. Medina and M. Moscoso, "Fluorescence lifetime imaging from time resolved measurements using a shape-based approach," Optics Express 17 (11), pp.8843-8855 (2009).
  7. P. González-Rodríguez, A. D. Kim and M. Moscoso, "Reconstructing a thin absorbing obstacle in a half space of tissue," Journal of the Optical Society of America A 24, pp. 3456-3466 (2007).
  8. A. D. Kim and M. Moscoso, "Radiative transport theory for optical molecular imaging," Inverse Problems 22, pp. 23-42 (2006).
  9. A. D. Kim and M. Moscoso, "Light transport in two-layer tissues," Journal of Biomedical Optics 10 (3), 034015 (2005).
  10. A. D. Kim and M. Moscoso, "Beam propagation in sharply peaked forward scattering media," Journal of the Optical Society of America A 21, pp. 797-803 (2004).
  11. A. D. Kim and M. Moscoso, "Backscattering of beams by forward-peaked scattering media," Optics Letters 29, pp. 74-76 (2004).
  12. A. D. Kim and M. Moscoso, "Backscattering of circularly polarized pulses," Optics Letters 27, pp. 1589-1591 (2002).
  13. A. D. Kim and M. Moscoso, "Influence of the refractive index on the depolarization of multiply scattered waves," Physical Review E 64, Article 026612 (2001).
  14. M. Moscoso, J. B. Keller and G. Papanicolaou, "Depolarization and blurring of optical images by biological tissue," Journal of the Optical Society of America A 18, pp. 948-960 (2001).
  • Microwave medical imaging
  1. N. Irishina, D. Álvarez, O. Dorn and M. Moscoso, "Structural level-set inversion for microwave breast screening," Inverse Problems 26 (3), 035015 (2010).
  2. N. Irishina, D. Álvarez, O. Dorn and M. Moscoso, "Detecting and imaging dielectric objects from real data: a shape based approach,"  Mathematical and Computer Modelling 50 (5-6), pp. 743-749 (2009).
  3. N. Irishina, M. Moscoso, and O. Dorn,  "Microwave imaging for early breast cancer detection using a shape-based stragegy," IEEE Trans. Biomed. Eng. 56 (4), pp. 1143-1153 (2009).  
  4. M. El-Shenawee, O. Dorn and M. Moscoso "An adjoint-field technique for shape reconstruction of 3-D penetrable objects immersed in a lossy medium", IEEE Trans. on Antenn. Propagat. 57 (2), pp. 520-534 (2009). 
  5. N. Irishina, O. Dorn and M. Moscoso, "A level set evolution strategy in microwave imaging for early breast cancer detection," Computer & Mathematics with Applications 56 (3), pp. 607-616 (2008).
  • Industrial applications
  1. D. Álvarez, O. Dorn, N. Irishina, and M. Moscoso, "Crack resconstruction using a level-set strategy," J. Comput. Phys228 (16), pp. 5710-5721 (2009).
  2. R.Villegas, O. Dorn, M. Moscoso, and M. Kindelan"Reservoir characterization using stochastic initializations and the level set method," Computers & Mathematics with Applications 56 (3), pp. 697-708 (2008).
  3. R.Villegas, O. Dorn, M. Kindelan and M. Moscoso"Imaging low sensitivity regions in petroleum reservoirs using topological perturbations and level sets," Journal of Inverse and Ill-posed Problems  15 (2), pp. 199-223 (2007).  
  4. D. Álvarez, O. Dorn and M. Moscoso, "Reconstructing thin shapes from boundary electrical measurements with level sets," International Journal for Information and Systems  Sciences 2 (4), pp 498-511  (2006).
  5. P. González-Rodriguez, M. Kindelan, M. Moscoso and O. Dorn, "History matching problem in reservoir engineering using the propagation-backpropagation method" Inverse Problems 21pp. 565-590 (2004).
  • Semiconductor superlattices
  1. A. Perales, L.L. Bonilla, M. Moscoso and J. Galán, "Spatio temporal structures in undoped photoexcited semiconductor superlattices," Int. J. Bifurcat. Chaos 11, pp. 2817- 2822 (2001).
  2. M. Moscoso, J. Galán and L. L. Bonilla, "Bifurcation behavior of asuperlattice model," SIAM J. Appl. Math.  6, pp.  2029-2057 (2000). 
  3. D. Sánchez, M. Moscoso, L. L. Bonilla, G. Platero and R. Aguado, "Dynamics of electric field domain walls in semiconductor superlattices," Physica E  7, pp. 299-301 (2000).
  4. D. Sánchez, M. Moscoso, L. L. Bonilla, G. Platero and R. Aguado, "Current self-oscillations, spikes and crossover between charge monopole and dipole waves in semiconductor superlattices," Phys. Rev.  B  60, pp. 4489-4492 (1999). 
  5. L. L. Bonilla, M. Kindelan, M. Moscoso and S. Venakides, "Periodic generation and propagation of traveling fronts in dc voltage biasedsemiconductor superlattices," SIAM J. Appl. Math.  57, pp. 1588-1614 (1997). 
  6. A. Wacker, M. Moscoso, M. Kindelan and L. L. Bonilla, "Current-voltage characteristic and stability in resonant-tunneling n-doped semiconductor superlattices," Phys. Rev. B  55, 2466-2475 (1997).
  7. J. Kastrup, R. Hey, K. Ploog, H.T. Grahn, L. L. Bonilla, M. Kindelan, M. Moscoso, A. Wacker and J. Galán, "Electrically  tunable GHz oscillations in doped GaAs-AlAs superlattices," Phys. Rev. B  55,  pp. 2476-2488 (1997).
  8. R. Aguado, G. Platero, M. Moscoso and L. L. Bonilla, "Microscopic Model for Sequential Tunneling in Semiconductor Multiple Quantum Wells," Phys. Rev. B 55, R16053-R16056 (1997). 
  9. J. W. Kantelhardt, H. T. Grahn, K. H. Ploog, M. Moscoso, A. Perales and L. L. Bonilla, "Spikes in the current self-oscillations  of doped GaAs/AlAs superlattices," Physica Status Solidi B 204, 500-503 (1997).
  10. L. L. Bonilla, O. M. Bulashenko, J. Galán, M. Kindelan and M. Moscoso, "Dynamics of electric-field domains and chaos in semiconductor superlattices," Solid State Electron. 40, pp. 161-165 (1996).
  11. J. Kastrup, R. Klann, H.T. Grahn, K. Ploog, L.L. Bonilla, J. Galán, M. Kindelan, M. Moscoso, and R. Merlin, "Self-oscillations of domains in doped GaAs-AlAs superlattices," Phys. Rev. B  52, 13761-13764, (1995).
  12. H.T. Grahn, J. Kastrup, K. Ploog, L.L. Bonilla, J. Galán, M. Kindelan and M. Moscoso, "Self-Oscillations of the Current in Doped Semiconductor Superlattices", Japn. J. Appl. Phys.  34, pp. 4526-4530 (1995).

 

  • Others
  1. D. Álvarez, F. Alonso-Atienza, J. L. Rojo-Álvarez, A. García-Alberola and M. Moscoso, "Shape reconstruction of endocardial ischemia from noncontact intracardiac electrograms: a model study", Mathematical & Computer Modelling  55 (5-6), pp. 1770-1781 (2012)
  2. G. Bal and M. Moscoso, "Theoretical and numerical analysis of polarization for time dependent radiative transfer equations," J. Quant. Spectrosc. Radiat. Transf. 70, 75-98 (2001).
  3. G. Bal and M. Moscoso, "Polarization effects of seismic waves on the basis of radiative transport theory," Geophys. J. Int. 142, pp. 571-585 (2000).

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