Effect of chromatic aberration on Gaussian beams: non-dispersive laser resonators |
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Authors: | Luis Mart-Lpez Omel Mendoza-Yero |
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Institution: | a Cuban Neuroscience Centre. Laboratory of Optoelectronics, A.P. 6880, C.P. 10600 Havana, Cuba |
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Abstract: | The propagation of a non-monochromatic (polychromatic) TEM00 Gaussian beam in vacuum, its passage through a thin plate and its transformation by a thin lens are studied in the case of a non-dispersive laser resonator. The basic assumptions of the model are as follows: optical fields are stationary and plane-polarized, the paraxial wave equation is valid, an equivalent non-dispersive hemiconfocal resonator represents the lasing medium and its stable resonator, the laser emits in a single mode. It is also assumed that the plate and the lens have large transverse dimensions. Mathematical expressions, for beam radius, divergence, radius of curvature and beam parameter product, are obtained. A beam quality factor for polychromatic Gaussian beams is defined and its value calculated in each case of interest. It is proposed to simulate a dispersive laser resonator by a non-dispersive resonator complemented with a plate and/or a thin lens. |
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Keywords: | Gaussian beams Chromatic aberration |
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