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RF Tutorial G Burt. TM 010 Monopole Mode E H Beam Z 0 =377 Ohms.

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Presentation on theme: "RF Tutorial G Burt. TM 010 Monopole Mode E H Beam Z 0 =377 Ohms."— Presentation transcript:

1 RF Tutorial G Burt

2 TM 010 Monopole Mode E H Beam Z 0 =377 Ohms

3 Transit time factor An electron travelling close to the speed of light traverses through a cavity. During its transit it sees a time varying electric field. If we use the voltage as complex, the maximum possible energy gain is given by the magnitude, Where T is the transit time factor given by For a gap length, g. For a given Voltage (=E 0 L) it is clear that we get maximum energy gain for a small gap.

4 Transit time factor The maximum energy gain is hence Considering the cavity length is g= /4

5 Shunt Impedance Another useful definition is the shunt impedance, This quantity is useful for equivalent circuits as it relates the voltage in the circuit (cavity) to the power dissipated in the resistor (cavity walls). Shunt Impedance is also important as it is related to the power induced in the mode by the beam (important for unwanted cavity modes)

6 TM010 Shunt Impedance

7 Radius For a pillbox TM010 mode the radius is given by k=  /c R=2.4/k=2.4 /2 

8 What is the maximum gradient of a 100 cell 12 GHz structure driven by a 50 MW klystron (assume pillbox parameters) R s =5E4/Rsurf For 100 cells

9 What is the maximum gradient of a 100 cell 12 GHz structure driven by a 50 MW klystron (assume pillbox parameters) V for 50 MW Gradient is V/L = 63 MV/m

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