Nicholas Calvano scite author profile

Nicholas Calvano

5Publications

8Citation Statements Received

41Citation Statements Given

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Affiliations

Delaware State University

Publications

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Electro-Optical Properties of Sputtered Calcium Lead Titanate Thin Films for Pyroelectric Detection

et al. 2020

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We report the deposition and characterization of calcium lead titanate (PCT) thin films for pyroelectric detectors. PCT films of thicknesses ranging from ~250 to 400 nm were deposited on both silicon and Si/SiN/Ti/Au substrates at 13 mTorr pressure by 200W radio frequency sputtering in an Ar + O2 environment. Substrates were kept at variable temperatures during the deposition. The PCT films were annealed at various temperatures in an O2 environment for 15 min. X-ray diffraction results confirm the polycrystalline nature of these films. Energy dispersive spectroscopy function of scanning electron microscope showed that the films are stoichiometric (Ca0.43Pb0.57) TiO3 (Ca/Ti = 0.5, Pb/Ti = 0.66). Temperature dependence of capacitance, pyroelectric current, and pyroelectric coefficient was investigated for different PCT films. Our results show that films deposited at 550 °C and 600 °C demonstrate better quality and larger values of the pyroelectric coefficient. On the other hand, the capacitance fabricated on the PCT films at 550 °C showed the highest value of pyroelectric current and pyroelectric coefficient which were 14 pA and at 30 °C was ~2 µC/m2K respectively at a higher temperature. In addition, we used density functional theory to determine the atomic and band structure, real and imaginary parts of dielectric constant and refractive index, and absorption and reflection constants with energy.

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Properties of reactively sputtered AlxNy thin films for pyroelectric detectors

Calvano

Chrostoski

Voshell

et al. 2017

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A polarimetric scanning LADAR: system development and performance analysis

Markushin

Calvano

Pati

et al. 2014

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In this paper, we discuss the development and operation of a scanning LADAR system. This system currently generates intensity and range images of a target with high spatial resolution located at a distance 5-10 m away from the sensor. The scanning LADAR system is designed with a purpose to generate polarization images of the target by integrating an in-line Stokes polarimeter in the receiver arm of the system. In this context, we have also discussed the basic design of the polarimeter using a liquid crystal retarder, and characterized the performance of the polarimeter for determining the polarization state of reflected light in the LADAR receiver.

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Calcium lead titanate thin films for pyroelectric detection

Chrostoski

Calvano

O'Neil

et al. 2017

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Electrical and optical characterization of AlxNy thin films

Calvano

O'Neil

Rana

2018

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