Your search keyword '"Mocella, Vito"' showing total 5 results

1. Label-free DNA biosensing by topological light confinement

Author

Zito Gianluigi, Sanità Gennaro, Guilcapi Alulema Bryan, Lara Yépez Sofía N., Lanzio Vittorino, Riminucci Fabrizio, Cabrini Stefano, Moccia Maria, Avitabile Concetta, Lamberti Annalisa, Mocella Vito, Rendina Ivo, and Romano Silvia

Subjects

biosensors, bound states in the continuum, dna, photonic crystals, Physics, QC1-999

Abstract

Large-area and transparent all-dielectric metasurfaces sustaining photonic bound states in the continuum (BICs) provide a set of fundamental advantages for ultrasensitive biosensing. BICs bridge the gap of large effective mode volume with large experimental quality factor. Relying on the transduction mechanism of reactive sensing principle, herein, we first numerically study the potential of subwavelength confinement driven by topological decoupling from free space radiation for BIC-based biosensing. Then, we experimentally combine this capability with minimal and low-cost optical setup, applying the devised quasi-BIC resonator for PNA/DNA selective biosensing with real-time monitoring of the binding event. A sensitivity of 20 molecules per micron squared is achieved, i.e. ≃0.01 pg. Further enhancement can easily be envisaged, pointing out the possibility of single-molecule regime. This work aims at a precise and ultrasensitive approach for developing low-cost point-of-care tools suitable for routine disease prescreening analyses in laboratory, also adaptable to industrial production control.

Published

2021

2. Half‐Integer Topological Charge Polarization of Quasi‐Dirac Bound States in the Continuum.

Author

De Tommasi, Edoardo, Romano, Silvia, Mocella, Vito, Sgrignuoli, Fabrizio, Lanzio, Vittorino, Cabrini, Stefano, and Zito, Gianluigi

Subjects

BOUND states, ANGULAR momentum (Mechanics), MATHEMATICAL continuum, GEOMETRIC topology, PHOTONIC crystals, SYMMETRY breaking, BAND gaps, BESSEL beams

Abstract

The non‐trivial polarization topology of bound states in the continuum (BICs) provides new strategies in nanophotonics. The polarization topology depends on the geometric parameters and energy‐momentum dispersion of the system and can be engineered to add specific functionalities for light molding. Herein, such a possibility is investigated by studying the topology of the polarization states associated with the optical field radiated by BICs when Dirac‐cone‐degeneracy is lifted. The opening of a pseudogap in the Dirac cone dispersion of square‐lattice dielectric photonic crystal slabs is achieved by tuning the slab thickness. First, the emergence of half‐integer topological charges without the requirement of BIC annihilation is theoretically shown, which instead occurs when in‐plane inversion symmetry is broken. Then, using spin‐to‐orbital angular momentum conversion, the theory of half‐integer topological charges mediated by BICs is demonstrated and experimentally proved. The same device is able to give rise to vortices with different orbital angular momentum depending on the way it is illuminated, thus improving the potential of optical multiplexing. In addition, the additive character of the topology‐induced phase‐vortex generation is finally demonstrated for both integer and half‐integer charges using also vortex states as input beams, which is of relevance for information delivery. [ABSTRACT FROM AUTHOR]

Published

2023

3. Plasmon-like surface states in negative refractive index photonic crystals.

Author

De Tommasi, Edoardo, Chiara De Luca, Anna, Cabrini, Stefano, Rendina, Ivo, Romano, Silvia, and Mocella, Vito

Subjects

PLASMONS (Physics), PHOTONIC crystals, PERMITTIVITY, METALS, SURFACE plasmon resonance, METAMATERIALS

Abstract

In this paper, the presence of localized plasmon-like modes at the surface of a silicon two-dimensional photonic crystal slab is demonstrated. In analogy with surface plasmons supported in metals, we observe that, in a photonic crystal metamaterial, the electromagnetic surface waves arise from a negative effective permittivity. The proposed device is dimensioned in order to support surface states in a large spectral window (≃1550-1650 nm). The result opens strategies in light control at the nanoscale, allowing on chip light manipulation in a wide frequency range and avoiding the intrinsic limits of plasmonic structures due to absorption losses in metals. [ABSTRACT FROM AUTHOR]

Published

2013

4. Tunable T-Shaped Waveguide in Two Dimensional Photonic Crystals Based on Liquid Crystals.

Author

Dardano, Principia, Sirleto, Luigi, Mocella, Vito, Rendina, Ivo, and Moretti, Luigi

Subjects

LIQUID crystals, WAVEGUIDES, PHOTONICS, ELECTROOPTICS, REFRACTIVE index

Abstract

In the last years, in order to achieve active tuning of photonic crystals devices, the possibility to use liquid crystal inside photonic crystals has been explored. On this line of argument, in this paper, we numerically investigate a tunable T-shaped waveguide diplexer, based on a two-dimensional square lattice photonic crystal composed of silicon rods in a liquid crystals. We prove that complete splitting of the entire input wavelengths range in two sub-ranges symmetrical with respect to the middle (switching) wavelength, and propagating in right and left arms respectively, can be achieved. Moreover, changing the refractive index of liquid crystals by electro-optical effect, a tuning of switching wavelength of about 60 nm can be obtained. [ABSTRACT FROM AUTHOR]

Published

2006

5. Optical Biosensors Based on Photonic Crystals Supporting Bound States in the Continuum.

Author

Romano, Silvia, Lamberti, Annalisa, Masullo, Mariorosario, Penzo, Erika, Cabrini, Stefano, Rendina, Ivo, and Mocella, Vito

Subjects

BIOSENSORS, PHOTONIC crystals, RADIATION, PROTEINS, PROTEIN-protein interactions

Abstract

A novel optical label-free bio-sensing platform based on a new class of resonances supported in a photonic crystal metasurface is reported herein. Molecular binding is detected as a shift in the resonant wavelength of the bound states in the continuum of radiation modes. The new configuration is applied to the recognition of the interaction between protein p53 and its protein regulatory partner murine double minute 2 (MDM2). A detection limit of 66 nM for the protein p53 is found. The device provides an excellent interrogation stability and loss-free operation, requires minimal optical interrogation equipment and can be easily optimized to work in a wide wavelength range. [ABSTRACT FROM AUTHOR]

Published

2018