L. H. K. Koh scite author profile

Safe and effective laser ophthalmic surgery requires a fine balance between the efficiency of laser delivered and the degree of collateral side damage. The laser-ocular tissue interaction process is reliant on three main variables, namely, wavelength, pulse duration, and deposited energy. A certain amount of energy is needed to achieve ablation, while too much energy can result in unwanted collateral thermal damage. In our work the relationship between energy deposition and ablation effect is studied by an in-vitro experiment using an 800 nm wavelength 150 fs-pulse-duration laser system. This experiment aims to validate the probability of decreasing the supplied energy during glaucoma surgery by femtosecond laser. Our results show that less energy is needed using femtosecond laser than that using a longer pulse laser.

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L. H. K. Koh

ZnO thin films prepared by a single step sol–gel process

Excimer laser processing of ZnO thin films prepared by the sol–gel process

Comparative characterisation of zinc oxide thin films prepared from zinc acetate with or without water of hydration via the sol–gel method

Effect of energy above laser-induced damage thresholds in the micromachining of silicon by femtosecond pulse laser

Femtosecond laser for glaucoma treatment: a study on ablation energy in pig iris

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