“…The reflection method was also used to measure Q [2]. When measuring each adapter's reflection, the other three were terminated by 50 Ω loads.…”
Section: Experimental Results Of Q Ext By the Reflection Methods And ...mentioning
confidence: 99%
“…According to Ref. [2], when the beam is pass-ing through the position cavity, the TM110 mode is excited and coupled into waveguides, and this is the first-stage coupling. Then the excited TE10 mode in the waveguide is coupled out by the waveguide to the coaxial cable adapter, and this is the second-stage coupling.…”
Section: Model Cbpm Structure and Coupling Mechanismmentioning
confidence: 99%
“…Each stage has its β and Q and this paper deals mainly with Q ext . In CBPM designs people found that it was difficult to simulate the two stages of coupling together, so they did not consider the second-stage coupling in the physics design, but tried to solve it in experiments after brazing waveguides [2,3]. In Ref.…”
Section: Model Cbpm Structure and Coupling Mechanismmentioning
confidence: 99%
“…In Ref. [2], the position cavity's Q 0 is about 10000, and β of the first-stage coupling is about 5. However, the total β of the two stages is only 0.75 and Q ext increases from 2000 to 13000 unpredictably.…”
Section: Model Cbpm Structure and Coupling Mechanismmentioning
The external Q (Qext) of the dipole mode is a key parameter of the Cavity Beam Position Monitor (CBPM). It determines the amplitude and length of the dipole mode signal. In this paper, Qext of a CBPM whose waveguides were open to the air was simulated and measured, and the results agreed with each other. Then four waveguide-to-coaxial cable adpaters were adjusted and assembled to the CBPM, and Qext remained unchanged. This progress provides a reliable method to evaluate Qext in the physics design without simulating the structurally complex adapters.
“…The reflection method was also used to measure Q [2]. When measuring each adapter's reflection, the other three were terminated by 50 Ω loads.…”
Section: Experimental Results Of Q Ext By the Reflection Methods And ...mentioning
confidence: 99%
“…According to Ref. [2], when the beam is pass-ing through the position cavity, the TM110 mode is excited and coupled into waveguides, and this is the first-stage coupling. Then the excited TE10 mode in the waveguide is coupled out by the waveguide to the coaxial cable adapter, and this is the second-stage coupling.…”
Section: Model Cbpm Structure and Coupling Mechanismmentioning
confidence: 99%
“…Each stage has its β and Q and this paper deals mainly with Q ext . In CBPM designs people found that it was difficult to simulate the two stages of coupling together, so they did not consider the second-stage coupling in the physics design, but tried to solve it in experiments after brazing waveguides [2,3]. In Ref.…”
Section: Model Cbpm Structure and Coupling Mechanismmentioning
confidence: 99%
“…In Ref. [2], the position cavity's Q 0 is about 10000, and β of the first-stage coupling is about 5. However, the total β of the two stages is only 0.75 and Q ext increases from 2000 to 13000 unpredictably.…”
Section: Model Cbpm Structure and Coupling Mechanismmentioning
The external Q (Qext) of the dipole mode is a key parameter of the Cavity Beam Position Monitor (CBPM). It determines the amplitude and length of the dipole mode signal. In this paper, Qext of a CBPM whose waveguides were open to the air was simulated and measured, and the results agreed with each other. Then four waveguide-to-coaxial cable adpaters were adjusted and assembled to the CBPM, and Qext remained unchanged. This progress provides a reliable method to evaluate Qext in the physics design without simulating the structurally complex adapters.
“…The most commonly used CBPMs now are cylindrical ones, which are easy to design and make. Many labs have designed cylindrical CBPMs whose resolution have reached micron and even sub-micron levels [1][2][3][4][5][6][7][8]. However, because of processing limits, for a cylindrical CBPM, the transverse section will always be an elliptical one.…”
The waveguide to coaxial cable adapter is very important to the cavity beam position monitor (CBPM) because it determines how much of the energy in the cavity could be coupled outside. In this paper, the waveguide to coaxial cable adapter of a CBPM is designed and experiments are conducted. The curve shapes of experiments and simulations are very similar and the difference in reflection is less than 0.1. This progress provides a reliable method for designing the adapter.
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