Pulsed thulium laser blood vessel haemostasis as an alternative to bipolar forceps during neurosurgical tumour resection

Hutfilz, Alessa; Theisen-Kunde, Dirk; Bonsanto, Matteo M.; Brinkmann, Ralf

doi:10.1007/s10103-023-03747-9

Cited by 3 publications

(1 citation statement)

References 25 publications

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“…However, to date, research on OVAs in the 2 μm wavelength range has received less attention. The 2 μm-pulsed lasers can be used in laser medicine [ 37 ], laser measurement and sensing [ 38 ], optical communications [ 39 ], and nonlinear optics [ 40 ] because they operate in the safe spectral region for the human eye, present strong absorption of water molecules, and are located in the atmospheric transmission window. There is an urgent need for 2 μm-pulsed structured optical vortices, as they combine the advantages of 2 μm-pulsed lasers and OVAs.…”

Section: Introductionmentioning

confidence: 99%

Pulsed Optical Vortex Array Generation in a Self-Q-Switched Tm:YALO3 Laser

Tong,

Chen,

Cai

et al. 2024

Materials

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Optical vortex arrays are characterized by specific orbital angular momentums, and they have important applications in optical trapping and manipulation, optical communications, secure communications, and high-security information processing. Despite widespread research on optical vortex arrays, the 2 μm wavelength range remains underexplored. Pulsed lasers at 2 μm are vital in laser medicine, sensing, communications, and nonlinear optic applications. The need for 2 μm-pulsed structured optical vortices, combining the advantages of this wavelength range and optical vortex arrays, is evident. Therefore, using just three elements in the cavity, we demonstrate a compact self-Q-switched Tm:YALO3 vortex laser by utilizing the self-modulation effect of a laser crystal and a defect spot mirror. By tuning the position of the defect spot and the output coupler, the resonator delivers optical vortex arrays with phase singularities ranging from 1 to 4. The narrowest pulse widths of the TEM00 LG0,−1, two-, three-, and four-vortex arrays are 543, 1266, 1281, 2379, and 1615 ns, respectively. All the vortex arrays in our study have relatively high-power outputs, slope efficiencies, and single-pulse energies. This work paves the way for a 2 μm-pulsed structured light source that has potential applications in optical trapping and manipulation, free-space optical communications, and laser medicine.

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Section: Introductionmentioning

confidence: 99%