Eznaveh Zeinab Sanjabi, Zacarias Juan Carlos Alvarado, Lopez Jose Enrique Antonio, Shi Kai, Milione Giovanni, Jung Yongmin, Thomsen Benn C, Richardson David J, Fontaine Nicolas, Leon-Saval Sergio G, Correa Rodrigo Amezcua
Opt Express. 2018 Nov 12;26(23):30042-30051. doi: 10.1364/OE.26.030042.
Optical vortex beams that carry orbital angular momentum (OAM), also known as OAM modes, have attracted considerable interest in recent years as they can comprise an additional degree of freedom for a variety of advanced classical and quantum optical applications. While canonical methods of OAM mode generation are effective, a method that can simultaneously generate and multiplex OAM modes with low loss and over broad spectral range is still in great demand. Here, via novel design of an optical fiber device referred to as a photonic lantern, where the radial mode index ("m") is neglected, for the first time we demonstrate the simultaneous generation and multiplexing of OAM modes with low loss and over the broadest spectral range to date (550 nm). We further confirm the potential of this approach to preserve the quality of studied OAM modes by fusion splicing the end-facet of the fabricated device to a delivery ring-core fiber (RCF).
携带轨道角动量(OAM)的光学涡旋光束,也被称为OAM模式,近年来引起了人们的极大兴趣,因为它们可以为各种先进的经典和量子光学应用提供额外的自由度。虽然传统的OAM模式产生方法是有效的,但仍迫切需要一种能够在低损耗和宽光谱范围内同时产生和复用OAM模式的方法。在这里,通过一种称为光子灯笼的光纤器件的新颖设计,其中忽略了径向模式指数(“m”),我们首次展示了在低损耗和迄今为止最宽的光谱范围(550纳米)内同时产生和复用OAM模式。我们进一步通过将制造的器件的端面熔接到一根传输环形芯光纤(RCF)上,证实了这种方法保持所研究的OAM模式质量的潜力。