Concetta Sibilia
SSD:
FIS/01
Profilo Research

Orari di ricevimento

Recapito telefonico: 06 49916541

Via Scarpa 16, Pal RM009- Roma

Orario Ricevimento: martedi' dalle 15 alle 17 a Via Scarpa 16, Pal RM009

Curriculum

Concita Sibilia -CV
1.Current CV
Professional recognition (honors, field of study, dates attended, degrees awarded):
Education and University position
• Diploma degree (Laurea) with Laude in Physics at the University of Roma La Sapienza.
• 1981-1985 , Università di Roma “La Sapienza”- Assistant Professor in General Physics at the
Engineering Faculty
• 1986 to 1999, Università di Roma “La Sapienza”- Associated professor in Physics at the Engineering
Faculty
• Since 2000 Full professor in Physics –University of Roma La Sapienza- Dept of Basic and Applied
Science (www.sbai.uniroma1.it).
• Since 2000 - Director of the Nonlinear Optics Lab/ La Sapienza
• Since 2013 - Director of Master in Optics and Quantum Information at La Sapienza
(www.OQI.uniroma1.it)
• October 2023 quiescence
Area of professional specialization:
• Optics, integrated optics,integrated quantum optics, nonlinear optics,physics of photonic devices.
List specific scientific activity
She worked on different aspect of optics and nonlinear optics, including integrated quantum optics as listed
below. Her current research interests are in quasi-periodical and periodical structures, photonic crystals and
plasmonics, with application of nonlinear optics to new materials and metamaterials. A part of her research
activity is devoted to the study of optothermal and thermophysical properties of materials.
She is author or co-author of more than 580 papers on international journals, with more than 100 invited
presentations at international Conferences. h-index : 40, Patents : 4, N. of Citations 7906 (Scopus).
The research can be categorized as follows:
• Coherence Properties of Electromagnetic Fields
• Nonclassical Propagation Effects in Waveguides, Directional Couplers and Photonic Band
Gap Materials
• Frequency Up- and Down Conversion in Complex Structures
• Linear and Nonlinear Optics at the Nanoscale
• Theory and model on Linear and Nonlinear Photonic Band Gap Materials and Photonic
crystals).
• Development of New Numerical Algorithms.
• Development of methods to characterize the nonlinear optical properties of materials and
metamaterials in the visible and near IR.
• Chiro optical properties of materials and metasurfaces.
Detail of the research activity :
• Detection and generation of high frequency electromagnetic radiation (x-rays and  rays) (1977 -1984)
This line of research, which began with the thesis work, continued for several years giving rise to 16
publications concerning the generation of coherent high frequency e.m. fields due to Compton scattering of
relativistic electrons in particular spatial configurations of the radiation field, both through the study of the
"channeling" of relativistic electrons into periodic potentials and also with a FEL type configuration for x-ray
generation through a light rectification process.
The two more important and more recently cited publications are : (a) Bertolotti, M., Sibilia, C.
“Coherent γ-emission by stimulated annihilation of electron-positron pairs” (1979) Applied Physics, 19, pp.
127-130. (b) Bertolotti, M., Sibilia, C. “Theory of Compton scattering by interfering electromagnetic fields
produced by two independent sources” (1980) Physical Review A, 21 , pp. 234-240.
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• Non-classical effects of the e.m.-matter interaction and transverse phenomena (pioneristics works on
the nonclassical field propagation in optical waveguides) (1982- 2006)
This line of research, which developed for a few years in parallel with the previous one, was born as a result of a
close collaboration with the group of Prof. J.Perina of the University of Olomouc (CS) in which the candidate
spent some periods and with which studied the quantum statistics of the e.m radiation, initially with particular
reference to x-ray processes. Subsequently, non-classical phenomena of the radiation field at optical frequencies
were studied, with particular reference to the generation of non-classical states in suitable integrated optical
devices. Non-classical phenomena, i.e. generation of "squeezed" states and modification of the radiation field
statistics in the presence of nonlinear interaction between the e.m. and the medium was studied for some light
"guiding" geometries, i.e. under conditions of geometric confinement of the radiation field. These studied
needed the development of suitable methods of calculation and led to the introduction of the concept of
"squeezed light" in a transversal spatial regime. Then, again in collaboration with the University of Olomouc, a
study in the classical regime concerning the analysis of propagation without diffraction in nonlinear optical
materials was performed, following the growing interest of the scientific community towards the spatial
"transverse" phenomena and the possible control of diffraction through of nonlinear interactions between intense
optical fields and materials.
Almost parallel to the collaboration with the University of Olomouc, a collaboration developed with Prof.
Janszky of the Hungarian Academy of Sciences with whom Sibilia performed studies on the propagation effects
of non-classical states in integrated optical devices, such as directional couplers; in particular, the behavior of
the "amplitude squeezed states" and "photon number states" was investigated in integrated optics. In
collaboration with the University of Olomouc and a group in Hunsville (USA) work has been done to studying
nonclassical effects in photonic crystals, in particular to explore the possibility of generation of parametric down
conversion, squeezed states, entangled photon generation.
45 papers have been published within a number of international collaborations supported by several
projects. The 4 more important and more cited papers are:
(a ) Janszky, J., Sibilia, C., Bertolotti, M., Yushin, Y. “Non-classical light in a linear coupler” (1988) Journal
of Modern Optics, 35, pp. 1757-1765. (b) Janszky, J., Sibilia, C., Bertolotti, M., Adam, P., Petak, A.
“Properties of a directional coupler with parametric amplification “(1995) Quantum and Semiclassical Optics:
Journal of the European Optical Society Part B, 7, art. no. 008, pp. 509-516. ( c ) Peřina Jr., J., Sibilia, C.,
Tricca, D., Bertolotti, M. “Nonclassical-light generation in a photonic-band-gap nonlinear planar waveguide “
(2004) Physical Review A - Atomic, Molecular, and Optical Physics, 70, pp. 043816-1-043816-11. (d) Peřina
Jr., J., Centini, M., Sibilia, C., Bertolotti, M., Scalora, M. “Properties of entangled photon pairs generated in
one-dimensional nonlinear photonic-band-gap structures”, (2006) Phys Rev A, 73, 033823.
• Propagation of the e.m. field in non-linear integrated optical devices.(1988-2001) ( Pioneristic work on
"integrated" nonlinear optics for efficient "all optical" control of the signals)
This line of research deals with the study and design of "integrated" nonlinear optical devices with the aim of
obtaining an advantageous and efficient "all optical" control of the signals. It developed since 1984, starting
with an analysis of the bistable behavior of planar waveguides. Sibilia studied the optical bistability wich
consists in a modification of the transmission properties of a medium, normally isotropic, when subjected to an
intense optical field, to obtain different transmission stages as a function of the intensity of the control field (or
input). The guiding geometry allows the reduction of the thresholds for the phenomenon, making easier to apply
it to "all-optical" devices where the "light controls the light".
Since 1987 the candidate started a collaboration with Dr. Mihalache of the Institute of Physics of the Romanian
Academy of Sciences developed, with whom the effect of the saturation of the optical nonlinear response of the
materials on the propagation of the radiation field in a medium in guiding geometry in presence of a non
linearity of the third order (Kerr - type) was studied. Since one of the important elements for the purpose of
optical propagation is that of the coupling of the radiation, particular attention was given to the study of
coupling in the presence of a nonlinear propagation regime. The behavior of both prism and grating couplers
was studied, in a non-linearity regime, performing also a series of experiments. One of the limitations on the all
optical control of the signals turned out to be the "saturation" of the refractive index in non-linear regime, so
that the parametric effects in guiding structures was studied.
Subsequently, the candidate observed that nonlinear materials with nonlinearities of the cubic and quadratic
type, but under conditions such as to give rise to modest shift in phase can be used for the design of devices of
interest in the field of optical signal processing. This led to the study of basic propagation phenomena in the
presence of appropriate geometric configurations, both of the guiding and the cavity type, and appropriate
numerical codes to follow the nonlinear optical propagation in more spatial dimensions were developed. Thanks
to that a novel transverse oscillatory behavior of a spatial soliton was studies, as well as a number of schemes
for all optical control of light.
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The research activity with a number of international collaborations and many projects produces 51
publications. The 3 more important and more cited papers are:
(a) Mihalache, D., Mazilu, D., Bertolotti, M., Sibilia, C. “Exact solution for nonlinear thin-film guided
waves in higher-order nonlinear media “(1988) Journal of the Optical Society of America B5, pp. 565-570. (b)
Mihalache, D., Bertolotti, M., Sibilia, C. IV –“Nonlinear Wave Propagation in Planar Structures” -(1989)
Progress in Optics, 27, pp. 227-313. ( c) Garzia, F., Sibilia, C., Bertolotti, M. “Swing effect of Spatial Soliton”-
Optics Comm. (1977), 139, pp.193-198.
• Development and optimization of the photothermal deflection technique for non-destructive analysis of
materials (since 1985)
To obtain as much information as possible about the nonlinear behavior of the materials, a more detailed
study was carried out on the thermal response of the materials themselves. Since 1985, the candidate
collaborated
to the development and optimization of the photothermal deflection technique for the
measurement of the optothermic properties of solid materials. Already in 1981 she worked to the calculation of
the surface temperature of a solid irradiated with a laser source and later, in 1983, to interferometric approaches
for the determination of the thermal properties of a material during laser heating, and for a more correct
evaluation of the temperature increase on the sample surface. The photodeflection technique, which is still in
use, is a "pump-probe" technique where two laser sources are used; one induces a modest temperature increase
of the medium, the other one reads the effects produced in the surrounding medium, thanks to the thermal
variation of the refractive index of the medium crossed by the "probe", which gives rise to an angular change of
its trajectory (hence the term photothermal deflection). Initially the method was optimized for the evaluation of
non-linear optical properties through the thermal behavior of materials. Subsequently it has been widely
modified and adapted for a wide use in nondestructive tests. In fact, the photothermal deflection signal, being
proportional to the temperature rise on the sample surface (or inside the sample under examination) also
contains morphological information on the material being examined, allowing the reconstruction of the thermal
conductivity profile below the surface of an opaque material, such as a metal, or allowing to determine the
degree of damage of semiconductor laser mirrors, or the degree of degradation at initial stages of paper material,
etc.
More than 100 papers have been published in international collaborations and projects. The 4 more
important and more cited papers are:
(a) Bertolotti, M., Li Voti, R., Liakhou, G., Sibilia, C. “On the photodeflection method applied to low thermal
diffusivity measurements (1993) Review of Scientific Instruments, 64, pp. 1576-1583. (b) Bertolotti, M.,
Liakhou, G.L., Li Voti, R., Paoloni, S., Sibilia, C. “Analysis of the photothermal deflection technique in the
surface reflection scheme: Theory and experiment “, (1998) Journal of Applied Physics, 83 (2), pp. 966-982. (c)
Bertolotti, M., Dorogan, V., Liakhou, G., Li Voti, R., Paoloni, S., Sibilia, C. “New photothermal deflection
method for thermal diffusivity measurement of semiconductor wafers “ (1997) Review of Scientific
Instruments, 68, pp. 1521-1526. (d) Bertolotti, M., Liakhou, G.L., Li Voti, R., Paoloni, S., Sibilia, C. “Thermal
wave reflection and refraction: Theoretical and experimental evidence” (1999) Journal of Applied Physics, 85 ,
pp. 3540-3545.
• Study of nonlinear non-homogeneous materials –Localization of the e.m.field (Nonlinear Photonic
Band Gap Materials and Photonic crystals pioneristic work on the nonlinear optical properties of
photonic band gap materials) (since 1993)
One of the objectives of the candidate's research activity has been for some time now, to study the most efficient
propagation conditions of optical fields in nonlinear optical materials, in order to optically control the
propagation, and also to be able to generate frequencies of the e.m. field not easily obtainable with the current
laser sources (uv or far infrared), overcoming the limitations due to the rather modest values of non-linear
optical susceptibility and obtaining the compensation of the refractive index dispersion by means of geometry.
A study was undertaken to examine the spatial localization of the e.m. field layered "geometries", and the group
velocity control. Quasi-periodic structures (fractal layers with Cantor and Fibonacci code), and one-dimensional
multilayers of dielectric and dielectric/metal composites were taken into consideration, showing that in fact an
appropriate geometric arrangement of the materials gives rise to a large increase of the e.m. field and gives a
spatial localization, which is of great help in the case of nonlinear processes.
This activity was carried out in a broad context of international collaboration ( University of Dayton, Huntsville
Redstone arsenal , Moscow State University, just to name some). When these structures have more or less
regular arrangements from a geometric point of view they are called "Photonic Band Gap". "Photonic Band
Gap" means that the transmission spectrum of the materials so created, has real gaps, i.e. regions where the field
is not transmitted. The Sibilia’s work has evidenced the great advantage of working with periodically finite
structures. Due to the interest that the international optical community is giving to nanostructures (the geometric
3
dimension of the individual layers is a fractions of wavelength), the research activity of the candidate was
concentrated on the development of theoretical modeling of metal nanoantennas in order to investigate the
metal nonlinear response and take advantage of the e.m. field localization in the proximity of nanoantennas,
with a number of international projects, as well as publications and patents. A variety of effects was studied:
nonlinear frequency conversion to visible with semiconductor materials, second harmonic generation with
electro-optical materials in appropriate guided geometry, such as a photonic crystal; "negative refraction"
conditions with anisotropic crystals, nanostructures, metallic based materials (plasmonic, metamaterials) for
different types of applications.
More than 180 papers in international collaborations and projects have been published. The 5 more
important and more cited papers are:
(a) Bertolotti, M., Masciulli, P., Sibilia, C. “Spectral transmission Properties of a self-similar optical Fabry
Perot”- (1994) Optics Lett. 19, pp. 777-779. (b) Centini, M., Sibilia, C., Scalora, M., D’Aguanno, G., Bertolotti,
M., Bloemer, M.J., Bowden, C.M., Nefedov, I. “Dispersive properties of finite, one-dimensional photonic band
gap structures: Applications to nonlinear quadratic interactions “ (1999) Physical Review E 60, pp. 4891-4898.
(c )Dumeige, Y., Vidakovic, P., Sauvage, S., Sagnes, I., Levenson, J.A., Sibilia, C., Centini, M., D'Aguanno, G.,
Scalora, M. “Enhancement of second-harmonic generation in a one-dimensional semiconductor photonic band
gap” (2001) Applied Physics Letters, 78 , pp. 3021-3023. (d) D’Aguanno, G., Centini, M., Scalora, M., Sibilia,
C., Bloemer, M.J., Bowden, C.M., Haus, J.W., Bertolotti, M. “Group velocity, energy velocity, and
superluminal propagation in finite photonic band-gap structures “(2001) Physical Review E - Statistical Physics,
Plasmas, Fluids, and Related Interdisciplinary Topics, 63,3. (e ) Sibilia, C., Nefedov, I.S., Scalora, M.,
Bertolotti, M. “Electromagnetic mode density for finite quasi-periodic structures “(1998) Journal of the Optical
Society of America B: Optical Physics, 15, pp. 1947-1952.
• Properties of materials and metamaterials in the visible and near IR (since 2011).
The candidate was also interested to the problem of modifying the infrared emission of an object (so-called
thermal camouflage) . With this term we mean the variation of the emissivity of an object at a given temperature
to adapt it to that of the surrounding environment, from the IR point of view. This problem does not necessarily
resolve in the reduction of the emissivity of the object, but it depends primarily on the emissivity of the
environment where the object find itself. If, for example, the environment has high emissivity and the object has
a lower emissivity, to achieve efficient thermal camouflage, the object must be covered with a filter that
increases its emissivity. The general approach is to develop a coating to be applied to the surface of the body to
be screened, having limited emissivity or high reflection in the range of wavelengths of interest. For this
purpose several approach have been followed, both from the experimental and theoretical point of view, with
the realization and characterization of some filters based on phase changing materials, as VO2,GST, GT,
flexible substrates an textiles.
This activity, within national and international collaborations, produced 20 papers. The 2 more
important and more cited papers are :
(a) Leahu, G., Li Voti, R., Sibilia, C., Bertolotti, M. (2013) “Anomalous optical switching and thermal
hysteresis during semiconductor-metal phase transition of VO2 films on Si substrate”, Applied Physics Letters
103, 231114.
(b) Centini, M., Benedetti, A., Larciprete, M.C., Bertolotti, M., Sibilia, C. “Midinfrared thermal emission
properties of finite arrays of gold dipole nanoantennas “, (2015)Physical Review B - Condensed Matter and
Materials Physics ,92,205411.
( c ) Petronijevic, E., Tomczyk, M., Belardini, A., Osewski, P., Piotrowski, P., Centini, M., Leahu, G., Voti,
R.L., Pawlak, D.A., Sibilia, C., Larciprete, M.C. “Surprising Eutectics: Enhanced Properties of ZnO-ZnWO4
from Visible to MIR” (2022) Advanced Materials,
• Chiro-optical properties of nonlinear materials and metasurfaces ( since 2011)
This more recent research line of the candidate includes both theoretical and experimental activities in an
international frame of cooperation with different groups, to study the linear and nonlinear optical properties of
artificial chiral material and surfaces. The work started with the study of chiral response of chromophores
(bacteriorodopsin), and continued with the study of “artificial” (extrinsic) chirality of metallic meta-materials
and surfaces.
Almost 50 papers have been published, in the frame of national and international collaborations.
The 2 more important and more cited papers are:
(a)Valev, V.K., Baumberg, J.J., Sibilia, C., Verbiest, T., “Chirality and chiroptical effects in plasmonic
nanostructures: Fundamentals, recent progress, and outlook “. (2013), Advanced Materials 25, pp. 2517-2534.
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(b)Belardini, A., Larciprete, M.C., Centini, M.,Giordano, M., Buatier De Mongeot, F.,Sibilia, C. (2011)
“Circular dichroism in the optical second-harmonic emission of curved gold metal nanowires”, Physical Review
Letters 107,257401.
Principal professional society memberships and activities - - - - - -
Professor C.Sibilia is also recognized by her important involvement in the progress of the optics
community, for which she brought and continues to bring a very valuable service, as for example: a
member of the Technical Programme Committee of CLEO USA (2005, 2006, 2007),
Chair of the TC (Applied Nonlinear optics) of CLEO Europe Conference (2015, 2017),
Co-Program Chair of CLEO Europe 2019.
Member of Scientific Committees of Conferences belonging to European Optical Society, Photo-thermal
Community. Organizations of Congresses and Schools in Optics, Nonlinear Optics..
Panel member of FET EU program (2015)
Panel member of “Abilitazione Scientifica Nazionale “ MUR-(2018-2021) - Furthermore:
Optical Society of America (OSA), OSA fellow
Italian Physical Society (SIF), Member
European Optical Society (EOS), Board Member
European Physical Society (EPS), Member
Italian Optical Society and Photonics (SIOF), Board member
Member of the “Virtual Institute” on Metamaterials “ Methamorphose”
Founder of the “European Nanophotonics Association”
Chair of the COST Action on “Physics of Photonics Crystals” MP11(supported by the European
Science Foundation) (2004-2008).
Vice Chair of the COST Action MP0702 (2008- 2012).
Member of the board of the COST Action “Nanoscale Quantum Optics” MP1403 (supported by the
European Science Foundation) (2014-2018).
Panel member for the evaluation of EU grants ( ERC, Pathfinder) (2022-2024)
Panel member for the evaluation of European Science Foundation proposals (20222-2024) -Responsible of many national and international projects on (most recent and relevant)
National Grant from Defense Ministry: Metamaterials for aerospace application”(METEORE) ( 2020
2025)
Center of Excellence in Nanophotonics- Ensemble 3(2020-2026)- Project funded by EU-Horizon 2020
National Grant from Defense Ministry :Chip for Quantum Computation and quantum sensing
(COPERNICO 2017-2020)
National Grant from Defense Ministry Nanostructured Materials for Near IR applications
(SCHERMA 2017-2020
National Grant from Defense Ministry Materials for IR applications (FISEDA) 2009-2015
National Grant from Defense Ministry Materials with negative index (MRINE)-2009.2015
National Grant from Defense Ministry on “ Slow light devices ” (2004-2007)
National Grant from Defense Ministry on “ Development of low noise sources” (2004-2008)
National grant from Research Ministry on “Physics of Photonics Crystals” –(2003-2006)
FP4 –UE- FET project - 3 year grant- (1999-2001)
FP6/ Network of excellence on Nnaophotonics (2003-2007)
Grant supported by ENEA ( Ente Nazionale per le Energie alternative) (2005/2008)(3 year grant)
Grant supported by the University of Roma La Sapienza on Physics of Photonic Crystals (2006)
Grant supported by the University of Roma La Sapienza on optical properties of metallo-dielectric
materials (2007)
3 project supported by the European Research Office –London (2000-2006) -National and international running collaborations:
Universite’ de Montpellier (Fr)
University of Olomouc(Cz Rep)
University of Dayton (USA)
University of Hokkaido (Japan)
5
University of Tampere ( Finland)
University of Warsaw (Poland)
Institute of Materials (ITME)- Poland
Universitat Polyt. Catalunia (Barcelona)-Spain
Università di Padova (Italy)
Università di Palermo (Itatly)
Teaching duties
Teaching activities in Physics since 2000 as Full Professor:
• General Physics Course at Engineering Faculty (first year) in particular General Physics for
Informatics Engineering, since 2005
• Laser Fundamentals Course at Electronics Engineering Master (since 2013)
• Optical Quantum Technology. at Electronics Engineering Master (since 2017)
• Quantum Electronics at Electronics Engineering Master (since 2000)
• Quantum Electronics- Master in Optics and Quantum information (since 2013)
Other Teaching Activity
• Director of Master (second level) in “ Optics and Quantum Information” joint with Leonardo Company and
University La Sapienza.
• Organization of national and international courses in Optics at University of Roma La Sapienza
• Organization of PhD oriented Summer Schools at national and international level:
o In 2002, she has organized a Summer School in Physics: “New Laser Sources and Photonics Devices”,
at the INFM center (Istituto Nazionale di Fisica della Materia) of Naples-Capri (September 2002).
o In 2005 Summer School on “ Advances in Nnophotonics”- Erice Agust 2005
o
In 2007 Summer School on “ Advances in Nnophotonics”- Erice Agust 2007
• Coordination of initiatives in education and scientific field carried out in national and international range -Prof. Sibilia has contributed to the drawing up of the program of studies of the Specialistic Degree in “Science of
Engineering”, being part of a working group of the Faculty of Engineering. - She is responsible of the exchange program of student mobility Socrates-Erasmus with the University of Paris
“Pierre et Marie Curie” in the frame of the nondestructive analysis of materials with techniques of optical type. - Responsible of exchange program with Serbia. -Responsible of visiting program - foreign Professors: Dr. Michael Scalora, researcher of the Center AMOCO of
Huntsville (AL-USA), Prof. Valev (UK) , Prof. J.Haus (USA), Prof. D.Pawlak (Poland).
Coordination of iniatives for PhD students in the frame of ENSEMBLE3 Center (2022)
List of publications (2019-2023)
( Hi=40, 598 publications)
Li Voti, R., Leahu, G., Petronijevic, E., Belardini, A., Centini, M., Sibilia, C., Bertolotti, M.
Advances in photoacoustic and photothermal techniques for nondestructive characterization at nanoscopic scale
(2019) Optics InfoBase Conference Papers, Part F143-EQEC 2019, art. no. 2019-jsiv_3_5, .
Belardini, A., Collins, J., Hooper, D.C., Petronijevic, E., Hakkarainen, T., Koivusalo, E., Piton, M.R.,
Soumalainen, S., Guina, M., Valev, V.K., Sibilia, C.
Nonlinear chiroptical response of GaAs nanowires partially covered by Au
(2019) Optics InfoBase Conference Papers, Part F140-CLEO_Europe 2019, art. no. 2019-cd_p_13, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85084544658&partnerID=40&md5=0078192926d4a451edd126de00e6f4bf
Petronijevic, E., Leahu, G., Voti, R.L., Belardini, A., Scian, C., Michieli, N., Cesca, T., Mattei, G., Sibilia, C.
Hybrid metal-polystyrene metasurfaces: Circular dichroism evidenced by means of photo-acoustic technique
(2019) Optics InfoBase Conference Papers, Part F140-CLEO_Europe 2019, art. no. 2019-ck_p_3, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85084532640&partnerID=40&md5=efc0f1c75cd8924b20a4214921449e73
Petronijevic, E., Centini, M., Cesca, T., Mattei, G., Sibilia, C.
VO2 phase change control of Au nanorod emission enhancement of magnetic dipolar emitters
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(2019) Optics InfoBase Conference Papers, Part F143-EQEC 2019, art. no. 2019-eh_p_17, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85084526625&partnerID=40&md5=f13c2a778dae45a52741ef9e8900ddc0
Sibilia, C., Bertolotti, M.
Nonlinear optics in chiral materials
(2019) Proceedings of SPIE - The International Society for Optical Engineering, 11026, art. no. 1102608, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85072619952&doi=10.1117%2f12.2525865&partnerID=40&md5=05b9f5063ba459075b3b27dc2480ea93
Larciprete, M.C., Centini, M., Li Voti, R., Sibilia, C.
Metamaterials approach for infrared radiation manipulation in dispersed nanowires systems
(2019) Proceedings of SPIE - The International Society for Optical Engineering, 11025, art. no. 110250O, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85071642680&doi=10.1117%2f12.2525014&partnerID=40&md5=9f8d48c1fc9566d364baae25dce287ea
Larciprete, M.C., Centini, M., Li Voti, R., Sibilia, C.
Polar metamaterials with graded air inclusions for infrared radiation managing
(2019) Proceedings of SPIE - The International Society for Optical Engineering, 11025, art. no. 1102503, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85071618106&doi=10.1117%2f12.2520860&partnerID=40&md5=f7df565eba4f75b8f2ad843cca5a0111
Petronijevic, E., Leahu, G., Meo, V.D.I., Crescitelli, A., Dardano, P., Coppola, G., Esposito, E., Rendina, I.,
Miritello, M., Grimaldi, M.G., Torrisi, V., Compagnini, G., Sibilia, C.
Near-infrared modulation by means of GeTe/SOI-based metamaterial
(2019) Optics Letters, 44 (6), pp. 1508-1511.
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85063000817&doi=10.1364%2fOL.44.001508&partnerID=40&md5=45c76c10918a46cf2be25d30f79e609f
Petronijevic, E., Sibilia, C.
Enhanced near-field chirality in periodic arrays of Si nanowires for chiral sensing
(2019) Molecules, 24 (5), art. no. 853, .
Petronijević, E., Leahu, G., Li Voti, R., Belardini, A., Scian, C., Michieli, N., Cesca, T., Mattei, G., Sibilia, C.
Photo-acoustic detection of chirality in metal-polystyrene metasurfaces
(2019) Applied Physics Letters, 114 (5), art. no. 053101, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85061094239&doi=10.1063%2f1.5064514&partnerID=40&md5=c1ccec5027ce4f4e3bd792417451793c
Larciprete, M.C., Centini, M., Li Voti, R., Sibilia, C.
Asymmetric and tunable infrared emission in metamaterials composed by oriented air voids into a polar material
(2019) Journal of Modern Optics, 66 (3), pp. 299-303.
https://www.scopus.com/inward/record.uri?eid=2-s2.0
85053563726&doi=10.1080%2f09500340.2018.1520933&partnerID=40&md5=2baa22227cfbd4649b5a17c8a2
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