Azimuthal mode discrimination of annular resonators

Ehrlichmann, Dietmar; Habich, Uwe; Plum, Heinz-Dieter

doi:10.1364/ao.32.006582

Cited by 18 publications

(6 citation statements)

References 10 publications

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“…where M is the free-space propagation matrix, M is the aperture matrix, M is the thermal lensing matrix, and M is the rear concave mirror matrix (all 2-D matrices). The propagation matrix M for each azimuthal order could be determined from the radial Kirchhoff-Fresnel diffraction kernel for long distances [9], given by (4) where is the propagation distance, k=2 , and and are the radial coordinates at and , respectively. Alternatively, M could equally be determined from the angular spectrum propagation for short distances [10].…”

Section: Resonator Design and Analysismentioning

confidence: 99%

Efficient selection of high-order Laguerre-Gaussian modes in a Q-switched Nd:YAG laser

Ishaaya

Davidson

Machavariani

et al. 2003

IEEE J. Quantum Electron.

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Intra-cavity binary phase elements are incorporated into a-switched Nd : YAG laser resonator to obtain efficient high-order transverse mode selection. The resonator configuration is analyzed using the propagation-matrix diagonalization method and the Fox-Li algorithm, and a simple model for predicting the relative output powers of the selected modes is developed. The predicted results are verified experimentally with binary phase elements for selecting the TEM 01 , TEM 02 and TEM 03 , degenerate Laguerre-Gaussian modes. The output energy per pulse was 15 mJ for the TEM 01 , 16.5 mJ for TEM 02 and 18.3 mJ for TEM 03 , all higher than the 10mJ for the TEM 00. The performance in-switched operation was found to be similar to that in free-running operation. The numerical calculations, experimental procedure and experimental results are presented.

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Section: Resonator Design and Analysismentioning

confidence: 99%

Efficient selection of high-order Laguerre-Gaussian modes in a Q-switched Nd:YAG laser

Ishaaya

Davidson

Machavariani

et al. 2003

IEEE J. Quantum Electron.

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“…It should be noted that according to a more exact analysis [16], annular stable resonators have azimuthal mode discrimination. However, the effect becomes apparent in the range of n ∼ 100, and this is beyond our scope of interest.…”

Section: Oscillation Modes Of Annular Resonatorsmentioning

confidence: 99%

Numerical simulation of the w-axicon type optical resonator for coaxial slab CO₂lasers

Endo¹,

Yamaguchi²,

Uchiyama³

et al. 2000

J. Phys. D: Appl. Phys.

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The numerical simulation of the optical resonator for a coaxial slab CO2 laser is conducted. The resonator consists of a toric mirror, a w-axicon, and a plane output coupler. To hold the two slabs coaxially, struts exist in the annular gap region. The effects of the struts on the output power and beam quality for the given resonator are discussed. It is found that varying the vertex of the toric mirror can control the oscillation mode between the E00 fundamental mode and the E01 first azimuthal mode. It is revealed that the resonator loss of the fundamental mode can be smaller than the first azimuthal mode by shifting the vertex inward, and this results in single-mode oscillation at the E00 fundamental mode. On the other hand, the maximum output is obtained under conditions where the resonator oscillates at the E01 mode, because the nodes of the mode coincide with the position of the struts. Loss measurement of each eigenmode well describes the aforementioned phenomena.

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“…where the highly oscillatory term has been dropped due to its much smaller contribution to the integral [7][8]. For d = R, the Fourier optical transform gives [11]…”

Section: Theorymentioning

confidence: 99%

“…Abrams [2], Degnan and Hall [3], Avrillier and Verdonck [5] and Boulnois [6] have studied the single mode losses of resonators in the hollow circular waveguide and rectangular waveguide (including square waveguide), respectively, and report that there exist three special geometries to provide the lowest coupling losses, corresponding to plane-parallel, half-concentric and semiconfocal configurations. In recent years coaxial waveguides have been increasingly used for gas lasers operating with RF transverse excitation and diffusion cooling [7,8]. However, there is no published report on the coupling losses of annular waveguide resonators.…”

Section: Introductionmentioning

confidence: 99%

Coupling efficiencies and mode discrimination in coaxial waveguide laser resonators

Wang¹,

Huang²,

Chen³

et al. 1999

J. Phys. D: Appl. Phys.

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An approach of calculating coupling efficiencies of waveguide modes in a coaxial waveguide laser resonator is developed by which the computational time is considerably reduced. The coupling efficiency is expressed in terms of the structural parameters of the resonator, which indicates that there exist three special configurations to provide low coupling losses. Mode discrimination can be achieved by appropriately choosing resonator parameters. The influences of the ratio of the outer radius to the inner radius of the waveguide on coupling losses and mode properties are also discussed.

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Azimuthal mode discrimination of annular resonators

Cited by 18 publications

References 10 publications

Efficient selection of high-order Laguerre-Gaussian modes in a Q-switched Nd:YAG laser

Efficient selection of high-order Laguerre-Gaussian modes in a Q-switched Nd:YAG laser

Numerical simulation of the w-axicon type optical resonator for coaxial slab CO₂lasers

Coupling efficiencies and mode discrimination in coaxial waveguide laser resonators

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Azimuthal mode discrimination of annular resonators

Cited by 18 publications

References 10 publications

Efficient selection of high-order Laguerre-Gaussian modes in a Q-switched Nd:YAG laser

Efficient selection of high-order Laguerre-Gaussian modes in a Q-switched Nd:YAG laser

Numerical simulation of the w-axicon type optical resonator for coaxial slab CO2lasers

Coupling efficiencies and mode discrimination in coaxial waveguide laser resonators

Contact Info

Product

Resources

About

Numerical simulation of the w-axicon type optical resonator for coaxial slab CO₂lasers