Marina Merker1, Roland Ackermann, Robert Kammel, Kathleen S Kunert, Stefan Nolte. 1. Institute of Applied Physics, Abbe Center of Photonics, Friedrich-Schiller-Universität Jena, Max-Wien-Platz 1, Jena, 07743, Germany; Faculty SciTec, Ernst-Abbe-Fachhochschule Jena, Carl-Zeiß-Promenade 2, Jena, 07745, Germany.
Abstract
BACKGROUND AND OBJECTIVE: To investigate femtosecond (fs)-laser patterns within ocular media for ophthalmic surgery. METHODS: Vitreous and crystalline lens tissue from porcine eyes were treated with 2-dimensional fs-laser patterns and inspected under the optical microscope. Time resolved pump-probe experiments were conducted on vitreous tissue and gelatin, which should act as a model for crystalline lens tissue. RESULTS: Within crystalline lens tissue, pulse overlap leads to the formation of large bubbles, which is caused by subsequent energy input from the surrounding plasma channel. This effect can be used for bubble size control. Vitreous tissue behaves similar to water under fs-laser treatment, but it still allows fs-laser cutting. CONCLUSION: Bubble size control by laser bursts may reduce optical side-effects of fs-laser treatment. Furthermore, fs-laser treatment could be used for vitreoretinal applications.
BACKGROUND AND OBJECTIVE: To investigate femtosecond (fs)-laser patterns within ocular media for ophthalmic surgery. METHODS: Vitreous and crystalline lens tissue from porcine eyes were treated with 2-dimensional fs-laser patterns and inspected under the optical microscope. Time resolved pump-probe experiments were conducted on vitreous tissue and gelatin, which should act as a model for crystalline lens tissue. RESULTS: Within crystalline lens tissue, pulse overlap leads to the formation of large bubbles, which is caused by subsequent energy input from the surrounding plasma channel. This effect can be used for bubble size control. Vitreous tissue behaves similar to water under fs-laser treatment, but it still allows fs-laser cutting. CONCLUSION: Bubble size control by laser bursts may reduce optical side-effects of fs-laser treatment. Furthermore, fs-laser treatment could be used for vitreoretinal applications.