Open resonator for electromagnetic waves having a polarized coupling region
First Claim
1. An open resonator for electromagnetic waves comprising:
- a pair of reflecting mirrors placed on a common optical axis so as to form a resonant structure, at least one mirror of said pair of reflecting mirrors being spherical, each mirror of said pair of reflecting mirrors having a center portion provided with a circular coupling region having a diameter substantially the same as or slightly smaller than a diameter of a beam of incident electromagnetic waves propagating in a resonant mode on said reflecting mirrors; and
a plurality of conductor stripes disposed in parallel to each other in each of said circular coupling regions, said parallel stripes being arranged at intervals of 1/20 to 1/500 of a wavelength of said incident electromagnetic waves propagating in said open resonator said plurality of conductor stripes in one of said circular coupling regions, which is on an input side mirror of said pair of reflecting mirrors, being disposed in parallel to a plane of polarization of said incident electromagnetic wave.
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Abstract
An open resonator comprises two concave spherical reflectors or one spherical and one plane reflectors positioned so as to form a resonant structure and each being provided at an electromagnetic coupling region thereof with a large number of conductor stripes disposed in parallel at a spacing sufficiently small in comparison with the wavelength of an incident electromagnetic wave. The diameter of the circular coupling region can be made very large in comparison with the wavelength. An ultra-high Q value can be obtained with the open resonator with very high excitation efficiency to a resonator mode. The Q value of the open resonator can be varied with the angle between the directions of the conductor stripes of the two reflecting mirrors.
20 Citations
8 Claims
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1. An open resonator for electromagnetic waves comprising:
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a pair of reflecting mirrors placed on a common optical axis so as to form a resonant structure, at least one mirror of said pair of reflecting mirrors being spherical, each mirror of said pair of reflecting mirrors having a center portion provided with a circular coupling region having a diameter substantially the same as or slightly smaller than a diameter of a beam of incident electromagnetic waves propagating in a resonant mode on said reflecting mirrors; and a plurality of conductor stripes disposed in parallel to each other in each of said circular coupling regions, said parallel stripes being arranged at intervals of 1/20 to 1/500 of a wavelength of said incident electromagnetic waves propagating in said open resonator said plurality of conductor stripes in one of said circular coupling regions, which is on an input side mirror of said pair of reflecting mirrors, being disposed in parallel to a plane of polarization of said incident electromagnetic wave. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification
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- Resources
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Current AssigneeNational Institute of Information and Communications Technology
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Original AssigneeCommunications Research Laboratory, Ministry Of Posts And Telecommunications
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InventorsAraki, Kenichi, Matsui, Toshiaki
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Primary Examiner(s)LEE, BENNY T
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Application NumberUS07/255,019Time in Patent Office935 DaysField of Search333/227, 333/219, 333/230, 333/995, 331/79US Class Current333/227CPC Class CodesH01P 7/00 Resonators of the waveguide...
