C.L. Thomson scite author profile

We report a technique for line-narrowing terahertz radiation produced through parametric generation. By incorporating an etalon within the idler-wave cavity of the parametric oscillator, radiation is generated with a linewidth of 1GHz (freerunning linewidth 50–100GHz) and with a center frequency continuously tunable over a band >50GHz, settable anywhere within the coarse tuning range of the device (1–3THz). When implemented within an intracavity cavity geometry, pulses of terahertz radiation of duration ∼10ns and energy ∼30nJ are generated at repetition rates up to 400Hz (implying mean powers of >10μW and peak powers of ∼3W) in a compact device.

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β-pyrophosphate: A potential biomaterial for dental applications

Anastasiou

Strafford

Posada-Estefan

et al. 2017

Materials Science and Engineering: C

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Tooth hypersensitivity is a growing problem affecting both the young and ageing population worldwide. Since an effective and permanent solution is not yet available, we propose a new methodology for the restoration of dental enamel using femtosecond lasers and novel calcium phosphate biomaterials. During this procedure the irradiated mineral transforms into a densified layer of acid resistant iron doped β-pyrophosphate, bonded with the surface of eroded enamel. Our aim therefore is to evaluate this densified mineral as a potential replacement material for dental hard tissue. To this end, we have tested the hardness of β-pyrophosphate pellets (sintered at 1000°C) and its mineral precursor (brushite), the wear rate during simulated tooth-brushing trials and the cytocompatibility of these minerals in powder form. It was found that the hardness of the β-pyrophosphate pellets is comparable with that of dental enamel and significantly higher than dentine while, the brushing trials prove that the wear rate of β-pyrophosphate is much slower than that of natural enamel. Finally, cytotoxicity and genotoxicity tests suggest that iron doped β-pyrophosphate is cytocompatible and therefore could be used in dental applications. Taken together and with the previously reported results on laser irradiation of these materials we conclude that iron doped β-pyrophosphate may be a promising material for restoring acid eroded and worn enamel.

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Exogenous mineralization of hard tissues using photo-absorptive minerals and femto-second lasers; the case of dental enamel

et al. 2018

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In this work we provide a new methodology for the mineralisation of dental hard tissues using femtosecond lasers and iron doped biomaterials. In particular, we demonstrate selective laser sintering of an iron doped fluorapatite on the surface of eroded enamel under low average power and mid-IR wavelength and the formation of a new layer to substitute the removed material. The new layer is evaluated through simulated brushing trials and nano-indentation. From the results we can conclude that is more acid resistant than natural enamel while, its mechanical properties are superior to that of current restorative materials. To the best of our knowledge this is the first time that someone demonstrated, laser sintering and bonding of calcium phosphate biomaterials on hard tissues. Although we here we discuss the case of dental enamel, similar approach can be adopted for other hard tissues, leading to new strategies for the fixation of bone/tooth defects.

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Observation of a cascaded process in intracavity terahertz optical parametric oscillators based on lithium niobate

Thomson¹,

Dunn²

2013

Opt. Express

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Cascaded difference frequency generation has been observed in intracavity optical parametric oscillators based on bulk lithium niobate and producing nanosecond pulses of terahertz radiation. Two idler waves are generated, namely: the primary idler wave associated with the parametric down conversion process itself; and a secondary idler wave, due to difference frequency generation. Experimental investigations of the frequency, temporal evolution, propagation direction, intensity, phase matching and oscillation threshold of the generated down-converted waves are reported. The overall generation efficiency for the terahertz radiation is enhanced, thereby overcoming the Manley-Rowe limit. Advantages of the present approach over schemes based on periodically poled lithium niobate are identified.

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C.L. Thomson

Sintering of calcium phosphates with a femtosecond pulsed laser for hard tissue engineering

Line-narrowed, compact, and coherent source of widely tunable terahertz radiation

β-pyrophosphate: A potential biomaterial for dental applications

Exogenous mineralization of hard tissues using photo-absorptive minerals and femto-second lasers; the case of dental enamel

Observation of a cascaded process in intracavity terahertz optical parametric oscillators based on lithium niobate

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