Diaphragm flange and method for lowering particle beam impedance at connected beam tubes of a particle accelerator

What is claimed is: 1 . A diaphragm flange, comprising: a. an annular outer ring including one or more bolt holes and an inner periphery; b. a first side having a flat surface a second side having a flat surface; c. an annular diaphragm integral with and extending from the inner periphery of the outer ring; and d. an opening in said annular diaphragm. 2 . The diaphragm flange of claim 1 , further comprising an annular ring outboard of the annular edge and forming an annular seat adjacent said opening. 3 . The diaphragm flange of claim 1 , further comprising a recessed surface on said second side of said diaphragm flange; and an annular knife-edge extending from said recessed surface. 4 . The diaphragm flange of claim 1 , further comprising a leak check groove extending laterally across the annular outer ring. 5 . The diaphragm flange of claim 1 , wherein said diaphragm includes a thickness that enables elastic or inelastic deformation of the diaphragm. 6 . The diaphragm flange of claim 1 , wherein said diaphragm includes a thickness of between 0.04 inch and 0.10 inch. 7 . The diaphragm flange of claim 1 , wherein said diaphragm includes a thickness of between 0.05 inch and 0.09 inch. 8 . The diaphragm flange of claim 1 , wherein said diaphragm includes a thickness of between 0.06 inch and 0.08 inch. 9 . The diaphragm flange of claim 1 , further comprising a transition area between said annular diaphragm said annular outer ring; a transition area between said annular diaphragm and said annular outer ring; and said transition areas are rounded to a radius of between 0.020-inch and 0.030-inch. 10 . The diaphragm flange of claim 3 , further comprising a tubular edge extending around the inner periphery of the annular diaphragm. 11 . The diaphragm flange of claim 10 , further comprising a gap between said tubular edge and said outer flange; and internal finger stock bridging said gap. 12 . The diaphragm flange of claim 11 , wherein said tubular edge extends around the inner periphery of said outer ring. 13 . The diaphragm flange of claim 12 , further comprising a copper gasket disposed in said recessed surface of said diaphragm flange; a flange pair formed by said diaphragm flange and an adjacent flange; a gap between said flange pair; and said finger stock bridges said gap between said flange pair. 14 . The diaphragm flange of claim 1 , further comprising finger stock extending around said inner periphery of said outer flange, said finger stock reducing the wake field reflections and reducing beam impedance across said diaphragm flange. 15 . A method for reducing the wake field reflections and lowering particle beam impedance at connected beam tubes of a particle accelerator, comprising: a. providing a diaphragm flange including an annular outer ring having one or more bolt holes and an inner periphery, a first side having a flat surface, a second side having a flat surface, and an opening therein; b. providing an annular diaphragm integral with and extending from the inner periphery of the outer ring; and c. providing the diaphragm with a thickness that enables elastic or inelastic deformation of the diaphragm. 16 . The method of claim 15 , further comprising providing a tubular edge extending around the inner periphery of the annular diaphragm, said tubular edge further reducing beam impedance for a particle beam passing through the diaphragm flange. 17 . The method of claim 15 , further comprising providing finger stock extending around said inner periphery of said annular outer ring, said finger stock reducing the wake field and reducing beam impedance across said diaphragm flange.