Pietro Bia
Pietro Bia
Elettronica spa
Email verificata su - Home page
Citata da
Citata da
Design of mid-infrared amplifiers based on fiber taper coupling to erbium-doped microspherical resonator
L Mescia, P Bia, M De Sario, A Di Tommaso, F Prudenzano
Optics Express 20 (7), 7616-7629, 2012
Analysis and synthesis of supershaped dielectric lens antennas
P Bia, D Caratelli, L Mescia, J Gielis
IET Microwaves, Antennas & Propagation 9 (14), 1497-1504, 2015
Terahertz electromagnetic field propagation in human tissues: A study on communication capabilities
G Piro, P Bia, G Boggia, D Caratelli, LA Grieco, L Mescia
Nano Communication Networks 10, 51-59, 2016
A novel FDTD formulation based on fractional derivatives for dispersive Havriliak–Negami media
P Bia, D Caratelli, L Mescia, R Cicchetti, G Maione, F Prudenzano
Signal Processing 107, 312-318, 2015
Fractional Derivative Based FDTD Modeling of Transient Wave Propagation in Havriliak–Negami Media
L Mescia, P Bia, D Caratelli
IEEE Transactions on Microwave Theory and Techniques 62 (9), 1920 - 1929, 2014
Fractional-calculus-based FDTD algorithm for ultrawideband electromagnetic characterization of arbitrary dispersive dielectric materials
D Caratelli, L Mescia, P Bia, OV Stukach
IEEE Transactions on Antennas and Propagation 64 (8), 3533-3544, 2016
Optimization of the design of high power Er3+/Yb3+–codoped fiber amplifiers for space missions by means of particle swarm approach
L Mescia, S Girard, P Bia, T Robin, A Laurent, F Prudenzano, A Boukenter, ...
IEEE Journal of Selected Topics in Quantum Electronics 20 (5), 484-491, 2014
Design of fiber coupled Er3+: chalcogenide microsphere amplifier via particle swarm optimization algorithm
G Palma, P Bia, L Mescia, T Yano, V Nazabal, J Taguchi, A Moréac, ...
Optical Engineering 53 (7), 071805-071805, 2014
Electromagnetic mathematical modeling of 3D supershaped dielectric lens antennas
L Mescia, P Bia, D Caratelli, MA Chiapperino, O Stukach, J Gielis
Mathematical Problems in Engineering 2016, 2016
Modeling of electroporation induced by pulsed electric fields in irregularly shaped cells
L Mescia, MA Chiapperino, P Bia, J Gielis, D Caratelli
IEEE Transactions on Biomedical Engineering 65 (2), 414-423, 2017
Design of Mid-IR -Doped Microsphere Laser
L Mescia, P Bia, O Losito, F Prudenzano
IEEE Photonics Journal 5 (4), 1501308-1501308, 2013
Fractional‐Calculus‐Based Electromagnetic Tool to Study Pulse Propagation in Arbitrary Dispersive Dielectrics
L Mescia, P Bia, D Caratelli
physica status solidi (a) 216 (3), 1800557, 2019
Electromagnetic Characterization of Supershaped Lens Antennas for High-Frequency Applications
P Bia, D Caratelli, L Mescia, J Gielis
European MIcrowave Week 2013, 1679 - 1682, 2013
Fractional calculus-based modeling of electromagnetic field propagation in arbitrary biological tissue
P Bia, L Mescia, D Caratelli
Mathematical Problems in Engineering 2016, 2016
Nonlinear dispersive model of electroporation for irregular nucleated cells
MA Chiapperino, P Bia, D Caratelli, J Gielis, L Mescia, J Dermol‐Černe, ...
Bioelectromagnetics 40 (5), 331-342, 2019
Design of electroporation process in irregularly shaped multicellular systems
L Mescia, MA Chiapperino, P Bia, CM Lamacchia, J Gielis, D Caratelli
Electronics 8 (1), 37, 2019
Experimental and numerical study of electroporation induced by long monopolar and short bipolar pulses on realistic 3D irregularly shaped cells
MA Chiapperino, L Mescia, P Bia, B Starešinič, M Čemažar, V Novickij, ...
IEEE Transactions on Biomedical Engineering 67 (10), 2781-2788, 2020
Fractional calculus based FDTD modeling of layered biological media exposure to wideband electromagnetic pulses
L Mescia, P Bia, MA Chiapperino, D Caratelli
Electronics 6 (4), 106, 2017
Temperature-Dependent Modeling of Cladding-Pumped/-Codoped Fiber Amplifiers for Space Applications
L Mescia, P Bia, S Girard, A Ladaci, MA Chiapperino, T Robin, A Laurent, ...
Journal of Lightwave Technology 36 (17), 3594-3602, 2018
Electroporation modelling of irregular nucleated cells including pore radius dynamics
MA Chiapperino, P Bia, CM Lamacchia, L Mescia
Electronics 8 (12), 1477, 2019
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
Articoli 1–20