J
Joshua E. Schoenly
Researcher at University of Rochester
Publications - 14
Citations - 98
Joshua E. Schoenly is an academic researcher from University of Rochester. The author has contributed to research in topics: Laser & Laser ablation. The author has an hindex of 5, co-authored 12 publications receiving 87 citations. Previous affiliations of Joshua E. Schoenly include The Institute of Optics & University of Toronto.
Papers
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Journal ArticleDOI
Ablation and thermal effects in treatment of hard and soft materials and biotissues using ultrafast-laser pulse-train bursts
Robin Marjoribanks,Christian Dille,Joshua E. Schoenly,Luke McKinney,Aghapi Mordovanakis,Patrick Kaifosh,Paul Forrester,Zuoming Qian,Andrés Covarrubias,Yuanfeng Feng,Lothar Lilge +10 more
TL;DR: In this paper, it is shown that ultrafast laser pulses delivered in a pulse-train burst mode of radiant exposure can access new degrees of control of the interaction process and of the heat left behind in tissues.
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Pulsetrain-burst mode, ultrafast-laser interactions with 3D viable cell cultures as a model for soft biological tissues.
Zuoming Qian,Aghapi Mordovanakis,Joshua E. Schoenly,Andrés Covarrubias,Yuanfeng Feng,Lothar Lilge,Robin Marjoribanks +6 more
TL;DR: A 3D living-cell culture in hydrogel has been developed as a standardized low-tensile-strength tissue proxy for study of ultrafast, pulsetrain-burst laser-tissue interactions, giving a preliminary upper limit for genetic damage following laser treatment.
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Near-UV laser treatment of extrinsic dental enamel stains.
TL;DR: The selective ablation of extrinsic dental enamel stains using a 400‐nm laser is evaluated at several fluences for completely removing stains with minimal damage to the underlying enamel.
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Investigation Into the Optimum Beam Shape and Fluence for Selective Ablation of Dental Calculus at lambda = 400 nm
TL;DR: The optimal transverse shape of the laser beam, including its variability under water‐cooling, is determined for selective ablation of dental calculus.
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Near-ultraviolet removal rates for subgingival dental calculus at different irradiation angles
TL;DR: Comparison of the average depth- and volume-removal rates does not reveal any dependence on the irradiation angle and is likely due to the surface topology of subgingival calculus samples that overshadows any expected angular dependence.