Your search keyword '"Venkatachalam, Subramanian"' showing total 2 results

1. ANALYSIS OF SELF-COLLIMATION BASED CAVITY RESONATOR FORMED BY PHOTONIC CRYSTAL

Author

Yogesh Natesan and Venkatachalam Subramanian

Subjects

Physics::Optics, Beam propagation, Microwave devices, Line source, Collimated light, Dielectric losses, law.invention, High confinement, Photonic crystals, Resonator, Optics, law, Self-collimation, Cavity resonators, Field enhancement, Photonic crystal, Physics, Finite difference time domain method, business.industry, Confinement effects, Gyroscope, Storage capability, Condensed Matter Physics, Gaussian pulse, Electronic, Optical and Magnetic Materials, Line sources, Physics::Accelerator Physics, Optoelectronics, Dielectric loss, Photonics, business, Finite difference time domains, Beam (structure)

Abstract

The self-collimation effect in photonic crystal is used for the realization of open cavity resonator formed by photonic prisms in a four-port arrangement. The confinement, field enhancement and energy storage capabilities of the proposed cavity are explored in this paper. The effect of dielectric losses included in the system and role of the position of line source in the confinement effect of the cavity are brought out. Decay of short Gaussian pulse placed inside the cavity is analyzed through finite-difference time-domain studies. Due to the high confinement and divergence less beam propagation, utility of the proposed cavity for rotational gyroscope application is also revealed.

Published

2010

2. Effect on the Grain Size of Single-mode Microwave Sintered NiCuZn Ferrite and Zinc Titanate Dielectric Resonator Ceramics.

Author

Sirugudu, Roopas Kiran, Vemuri, Rama Krishna Murthy, Venkatachalam, Subramanian, Gopalakrishnan, Anisha, and Budaraju, Srinivasa Murty

Subjects

SINTERING, DIELECTRIC loss, MICROWAVES, ELECTROMAGNETIC waves, FERRITES

Abstract

Microwave sintering of materials significantly depends on dielectric, magnetic and conductive losses. Samples with high dielectric and magnetic loss such as ferrites could be sintered easily. But low dielectric loss material such as dielectric resonators (paraelectrics) finds difficulty in generation of heat during microwave interaction. Microwave sintering of materials of these two classes helps in understanding the variation in dielectric and magnetic characteristics with respect to the change in grain size. High-energy ball milled Ni0.6Cu0.2Zn0.2Fe1.98O4-σand ZnTiO3are sintered in conventional and microwave methods and characterized for respective dielectric and magnetic characteristics. The grain size variation with higher copper content is also observed with conventional and microwave sintering. The grain size in microwave sintered Ni0.6Cu0.2Zn0.2Fe1.98O4-σ is found to be much small and uniform in comparison with conventional sintered sample. However, the grain size of microwave sintered sample is almost equal to that of conventional sintered sample of Ni0.3Cu0.5Zn0.2Fe1.98O4-σ. In contrast to these high dielectric and magnetic loss ferrites, the paraelectric materials are observed to sinter in presence of microwaves. Although microwave sintered zinc titanate sample showed finer and uniform grains with respect to conventional samples, the dielectric characteristics of microwave sintered sample are found to be less than that of conventional sample. Low dielectric constant is attributed to the low density. Smaller grain size is found to be responsible for low quality factor and the presence of small percentage of TiO2 is observed to achieve the temperature stable resonant frequency. [ABSTRACT FROM AUTHOR]

Published

2011