Sunil K. Khijwania scite author profile

A novel intrinsic fiber optic pressure sensor realized with a polarization-maintaining photonic crystal fiber (PM-PCF) based Sagnac interferometer is proposed and demonstrated experimentally. A large wavelengthpressure coefficient of 3:42 nm=MPa was measured using a 58:4 cm long PM-PCF as the sensing element. Owing to the inherently low bending loss and thermal dependence of the PM-PCF, the proposed pressure sensor is very compact and exhibits low temperature sensitivity.

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An evanescent-wave optical fiber relative humidity sensor with enhanced sensitivity

Khijwania

Srinivasan

Singh

2005

Sensors and Actuators B: Chemical

175

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Maximum achievable sensitivity of the fiber optic evanescent field absorption sensor based on the U-shaped probe

Khijwania

Gupta

2000

Optics Communications

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Temperature-Insensitive Fiber Bragg Grating Based Tilt Sensor With Large Dynamic Range

Khijwania

et al. 2011

J. Lightwave Technol.

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<title>Fiber optic evanescent field absorption sensor based on a tapered probe: effect of fiber parameters on the response curve</title>

Khijwania

Gupta

1999

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An experimental study of the fiber-optic evanescent field absorption sensor based on tapered sensing probe is presented. The influences of numerical aperture, core radius of the fiber and the taper ratio on the sensitivity of the sensor are investigated. Increase in the numerical aperture of the fiber increases the sensitivity of the sensor while the decrease in the core radius increases the sensitivity. In addition, for a given fiber, increase in taper ratio increases the sensitivity. The relationship has been found to be linear.

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