Apparatus and methods of producing an optimal high intensity x-ray beam
First Claim
1. The method for producing from an x-ray generating apparatus, maximum x-ray emission for a specific x-ray energy range from an anode upon which an electron beam of selected power impinges, comprising the steps of:
- directing the electron beam toward the x-ray producing anode at an angle α
from about 1°
to below 5°
relative to the anode surface,selecting x-ray photon emission beam at angle β
relative to the anode surface,selecting an angle γ
defined by the angle between the intersection of the planes normal to the anode surface and containing the electron beam and photon emission beam, respectively, to maximize the photon emission probability for photons having a desired energy,thereby to maximize the intensity of the selected x-rays.
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Abstract
Apparatus and method for deriving an x-ray beam from an electron beam striking an anode at a selected angle, the x-ray beam being selectively directed to achieve optimal high intensity yield of high energy bremsstrahlung photons for a given x-ray beam cross-section. The angle of the x-ray beam relative to the anode is selected (1) to prevent anode damage and (2) to minimize undesired multiple scatter, and (3) maximize high energy photon production in the bremsstrahlung spectrum. The angles of the incident electron beam and of the emitted x-ray beam and the angle of the planes normal to the anode surface and containing the electron beam and x-ray beam, respectively, are defined to account for multiple scattering and out-scattering of electrons as well as enhanced x-ray beam intensity, and angular distribution of emitted photons of a desired energy.
49 Citations
14 Claims
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1. The method for producing from an x-ray generating apparatus, maximum x-ray emission for a specific x-ray energy range from an anode upon which an electron beam of selected power impinges, comprising the steps of:
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directing the electron beam toward the x-ray producing anode at an angle α
from about 1°
to below 5°
relative to the anode surface,selecting x-ray photon emission beam at angle β
relative to the anode surface,selecting an angle γ
defined by the angle between the intersection of the planes normal to the anode surface and containing the electron beam and photon emission beam, respectively, to maximize the photon emission probability for photons having a desired energy,thereby to maximize the intensity of the selected x-rays. - View Dependent Claims (2, 3, 4)
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5. Apparatus for safely producing a maximum energy in an x-ray beam for a specific range of x-ray energies above a predetermined energy level from a target volume extending a predetermined distance below the surface of an anode positioned to be struck by an electron beam, said apparatus comprising
an anode having a surface disposed to be impinged upon by a beam of electrons, said target producing x-rays when struck by electrons, means for directing the beam of electrons at said surface at an angle α - ,
means for defining a target area for the x-rays produced by said anode lying at an angle β
relative to said surface,the value of β
>
cs sin α
wherein c is the density of said x-ray producing anode times the loss in the target and s is the length of travel of electrons in said anode. - View Dependent Claims (6)
- ,
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7. The method for producing maximum intensity x-rays from an x-ray apparatus having an electron beam anode comprising:
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defining the intensity, spectrum of intensities, divergence and width and height of the x-ray beam in accordance with use requirements, defining a collimator to determine the x-ray beam area and divergence, producing an electron beam having an energy and beam power to produce x-rays of the desired maximum energy and intensity in the electron beam anode; locating the axis of the collimator at an angle β
to the surface of the electron beam anode such that ##EQU5## where A is the are of the anode parallel to the anode surface impacted by the electron beam, Dmax is the maximum power density tolerated by the anode without overheating, Pe is the electron beam power, andestablishing an angle α
between the electron beam and the surface of the anode to determine the spectrum of photon energies in the x-ray beam.
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8. An x-ray producing apparatus comprising
an electron beam generating means, an electron beam anode for emitting x-rays when bombarded by electrons, a collimator having an axis for permitting x-rays generated in said anode to be directed only to a specific x-ray target area, said collimator providing a size of opening of an area determined by the use to which the x-ray beam, said anode having a surface lying at an angle of less than 5° - to the axis of said collimator,
said electron beam generating means directing an electron beam at an angle α
to the x-ray beam in the approximate range of 60°
to 120°
,said collimator, anode and said x-ray beam being positioned to substantially maximize emission probability of photons having a desired energy, said electron beam generating means producing a beam of a size such that the kilowatts per square centimeter of dissipation in said anode lies below a maximum for the material of said anode. - View Dependent Claims (10, 11, 12)
- to the axis of said collimator,
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9. The method for producing from an x-ray apparatus a maximum energy in an x-ray beam for a specific range of x-ray energies from an anode volume extending a predetermined distance below the surface of an anode that is struck by an electron beam, the method comprising:
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aiming an electron beam at an x-ray producing anode, at an angle α
to the surface of the anode,defining an axis for emission of the x-ray beam from the apparatus at an angle β
to the surface of the anode,the beam angle α
of between about 1°
to below 5° and
the angle β
defining the ratio of sin α
/sin β
of at least 20,selecting an angle of emission probability to optimize generation of x-rays of a select energy range and intensity in said x-ray beam.
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13. Apparatus for safely producing a maximum energy in an x-ray beam for a specific range of x-ray energies above a predetermined energy level from a target volume extending a predetermined distance below the surface of an anode positioned to be struck by an electron beam, said apparatus comprising:
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an anode having a surface disposed to be impinged upon by a beam of electrons, said anode producing x-rays when struck by electrons, means directing the beam of electrons at said surface at an angle α
.a collimator for defining a target area for the x-rays produced by said anode at an angle β
relative to said surface,said angles α and
β
being such that the value of sin α
/sin β
lies above approximately 20.said means for defining determines an angle α
smaller than the angle at which 30% of photons are absorbed by the anode. - View Dependent Claims (14)
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Specification