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Highly efficient optical fiber sensor for instantaneous measurement of elevated temperature in dental hard tissues irradiated with an Nd:YaG laser

Zahraa J. Naeem, Ansam M. Salman, Rawaa A. Faris, Abdulhadi Al‐Janabi

2021Applied Optics17 citationsDOI

Abstract

In this in vitro experiment, the effect of 1.064 µm pulsed laser on both enamel- and dentin-dental tissues has been investigated. A total of fifty-five dental hard tissue samples were exposed to Nd:YAG laser that possesses a pulse width of 9 ns and 850 mJ of total energy. An optical fiber sensor was put behind the samples to measure the temperature instantaneously. A novel, to the best of our knowledge, fiber sensor has been proposed and used to measure the heat generated in dental hard tissues instantaneously after the application of laser irradiation on the tissue surface. This optical sensor exhibits a fast response time of about 1 ms and high sensitivity with about 1.975 nm/°C. The findings of this study in decreasing the probability of pulpal necrosis structure while handling the tooth, whether for ablation, welding, or tooth resurfacing purposes, may establish standards for dentists and laser manufacturers (healthcare professionals) that should be followed.

Topics & Concepts

Materials scienceLaserOptical fiberOpticsIrradiationFiber laserDentinEnamel paintFiberOptoelectronicsComposite materialNuclear physicsPhysicsLaser Applications in Dentistry and MedicineAdvanced Fiber Optic SensorsLaser Design and Applications
Highly efficient optical fiber sensor for instantaneous measurement of elevated temperature in dental hard tissues irradiated with an Nd:YaG laser | Litcius