Generation of 65-fs ultrashort pulses at 1030-nm center wavelength directly from Kerr-lens mode-locked Yb:YAG laser

“…The SOD was introduced to the GTI mirror; therefore, the SOD in the cavity was twice that of the mirror. The above-mentioned parameters are appropriate for those in the experiment [6,9]. We assumed hyperbolic secant-shaped pulses with a pulse width of 120 fs as the initial condition.…”

“…A pulse width of 65 fs and output spectrum width of 17 nm were obtained at the gain peak, which is almost half of the Fourier transform limit of the gain spectrum bandwidth at the peak [9]. Without Gires-Tournois interferometer (GTI) mirror compensation, output spectrum widths of approximately 30 nm were also obtained.…”

“…We used a Yb:YAG crystal as the laser gain material to demonstrate for the first time the generation of ultrashort pulses beyond the gain spectrum limit directly from the mode-locked laser by using a highly nonlinear intra-cavity medium [6][7][8][9]. Several Yb-doped laser gain media with wide gain bandwidths beyond 10 nm have been reported.…”

“…The results agree qualitatively with the experimental results from previous reports. Figure 1 shows a schematic of the Kerr-lens mode-locked Yb:YAG laser with a highly nonlinear intra-cavity medium [6,9]. For the theoretical analysis of this laser, we used a nonlinear Schrodinger equation as follows:…”

Theoretical Analysis of Dependence of Nonlinear Effects in Mode-Locked Yb:YAG Lasers with a Highly Nonlinear Intra-Cavity Medium

“…The SOD was introduced to the GTI mirror; therefore, the SOD in the cavity was twice that of the mirror. The above-mentioned parameters are appropriate for those in the experiment [6,9]. We assumed hyperbolic secant-shaped pulses with a pulse width of 120 fs as the initial condition.…”

“…A pulse width of 65 fs and output spectrum width of 17 nm were obtained at the gain peak, which is almost half of the Fourier transform limit of the gain spectrum bandwidth at the peak [9]. Without Gires-Tournois interferometer (GTI) mirror compensation, output spectrum widths of approximately 30 nm were also obtained.…”

“…We used a Yb:YAG crystal as the laser gain material to demonstrate for the first time the generation of ultrashort pulses beyond the gain spectrum limit directly from the mode-locked laser by using a highly nonlinear intra-cavity medium [6][7][8][9]. Several Yb-doped laser gain media with wide gain bandwidths beyond 10 nm have been reported.…”

“…The results agree qualitatively with the experimental results from previous reports. Figure 1 shows a schematic of the Kerr-lens mode-locked Yb:YAG laser with a highly nonlinear intra-cavity medium [6,9]. For the theoretical analysis of this laser, we used a nonlinear Schrodinger equation as follows:…”

Theoretical Analysis of Dependence of Nonlinear Effects in Mode-Locked Yb:YAG Lasers with a Highly Nonlinear Intra-Cavity Medium

“…At the Yb:YAG gain center of 1030 nm, 110 fs and 72 fs pulse-widths were obtained directly from the mode-locked Yb:YAG laser with SESAM and without SESAM, respectively [1][2][3]. These output spectra over 10 nm were much broader than the fluorescence of about 9 nm.…”

Ultrashort-pulse nonlinear Raman Yb:YAG laser with Raman medium

Spectroscopic and lasing properties of highly-doped Ytterbium-glasses