High efficiency diode-side-pumped Ndsup(3+):YLiFsub(4) laser at 1053nm
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2009
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EUROPEAN CONFERENCE ON LASERS AND ELECTRO-OPTICS AND THE EUROPEAN QUANTUM ELECTRONICS CONFERENCE
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Resumo
Diode pumped lasers operating in fundamental mode have applications such as material processing, medical and
LIDAR. Good beam quality is achieved with the longitudinal pumping configuration that permits good overlap
between the laser and the pump mode. On the other hand, this pump scheme is limited with respect to power
scaling due to thermal effects. This difficulty can be solved using a side pumped configuration at the expense of
beam quality. Only few configurations exist that permit good beam quality and high efficiency with sidepumping. Dergachev et al. have demonstrated a side pumped Nd:YLF laser operating at 1053nm with 20W of
cw output power at 64W of pump power, resulting in 31% optical efficiency [1]. The emission at 1053nm has
the advantage of a weaker thermal lens compared to 1047nm, resulting in a 2.3x smaller dioptric power [2]. In
this work, we describe a very compact cavity with two total internal reflections inside the crystal and
demonstrate 6.9W of output power in fundamental mode, which results in 33% optical-to-optical efficiency and
42% slope efficiency.
The laser crystal used was a home-grown Nd:YLF with 0.8mol% Nd3+ doping and dimensions of 14mm x
13mm x 3mm. A Brewster angle at the entrance of the beam into the crystal creates an efficient selection
mechanism for the 1053nm transition. The pump source was a cw 20W TM polarized diode bar operating at
792nm. The crystal c-axis was parallel to the diode’s polarization in order to access the higher absorption crosssection. Operation was cw up to a pump power of 16 W above which we used qcw pumping with parameters of
7% duty cycle and 2ms pump pulse duration to prevent crystal fracture (refrigeration was only from the bottom
crystal facet). The diode beam was focused into the crystal by a f = 2.5 cm spherical lens.
The crystal was side pumped with two different configurations. In the first experiment, a compact planoconvex cavity with a 30cm ROC high reflector mirror and a flat output coupler with 7% transmission were used
in a single pass configuration (Fig. 1a). Fundamental mode was achieved in a double pass configuration using an
additional flat high reflector mirror (M3) and a 3m ROC folding mirror (Fig. 1b).
With a single pass inside the gain media, an output power of 9.5W, resulting in 45% optical-to-optical
efficiency and 49% slope efficiency was achieved. The beam quality was multimode with a M2
of 61 × 1.65 in
the horizontal and vertical, respectively. An output power of 6.9W in fundamental mode, M2
of 1.16 × 1.05, was
obtained the double bounce configuration. In summery, in both cases the obtained efficiencies correspond, to the
best of our knowledge, to the highest efficiencies reported in the literature for diode side-pumped Nd:YLF lasers
operating at 1053 nm.
Como referenciar
WETTER, NIKLAUS U.; SOUSA, EDUARDO C.; CAMARGO, FABIOLA; RANIERI, IZILDA M.; BALDOCHI, SONIA L. High efficiency diode-side-pumped Ndsup(3+):YLiFsub(4) laser at 1053nm. In: EUROPEAN CONFERENCE ON LASERS AND ELECTRO-OPTICS AND THE EUROPEAN QUANTUM ELECTRONICS CONFERENCE, Jun. 14-19, 2009, Munich, Alemanha. Abstract... DOI: 10.1109/cleoe-eqec.2009.5192255. Disponível em: http://repositorio.ipen.br/handle/123456789/19343. Acesso em: 30 Dec 2025.
Esta referência é gerada automaticamente de acordo com as normas do estilo IPEN/SP (ABNT NBR 6023) e recomenda-se uma verificação final e ajustes caso necessário.