US2234281A - Shielded electron microscope - Google Patents

Shielded electron microscope Download PDF

Info

Publication number
US2234281A
US2234281A US254534A US25453439A US2234281A US 2234281 A US2234281 A US 2234281A US 254534 A US254534 A US 254534A US 25453439 A US25453439 A US 25453439A US 2234281 A US2234281 A US 2234281A
Authority
US
United States
Prior art keywords
electron
electron microscope
coil
optical
shielding
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US254534A
Inventor
Ruskz Ernst
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fides Gesellschaft fuer die Verwaltung und Verwertung von Gewerblichen Schutzrechten mbH
Original Assignee
Fides Gesellschaft fuer die Verwaltung und Verwertung von Gewerblichen Schutzrechten mbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Fides Gesellschaft fuer die Verwaltung und Verwertung von Gewerblichen Schutzrechten mbH filed Critical Fides Gesellschaft fuer die Verwaltung und Verwertung von Gewerblichen Schutzrechten mbH
Application granted granted Critical
Publication of US2234281A publication Critical patent/US2234281A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J37/00Discharge tubes with provision for introducing objects or material to be exposed to the discharge, e.g. for the purpose of examination or processing thereof
    • H01J37/02Details
    • H01J37/04Arrangements of electrodes and associated parts for generating or controlling the discharge, e.g. electron-optical arrangement, ion-optical arrangement
    • H01J37/09Diaphragms; Shields associated with electron or ion-optical arrangements; Compensation of disturbing fields

Definitions

  • This invention relates to an electron microscope having shielding means for reducing the disturbing influence of extraneous magnetic fields.
  • the resolving power of an electron microscope is considerably greater thanthat of the usual light microscope.
  • the greater resolving power can be satisfactorily utilized only if special precautions are taken to eliminate or reduce certain faults peculiar to the electron microscope.
  • faults due to phenomena originating in the electron-optical system itself such as the diffraction of the electron Waves by the electron-optical objective, the influences of the space charge exerted on the rays, the dispersion of the electrons in the object, and the influence of the speed distribution of the electrons within the electron emitting source, there are faults to be put up with which are caused by eX- traneous disturbances, in particular by the influence on the electron rays of external magnetic fields.
  • Such disturbing fields may be produced by machines or apparatus in the neighborhood of the electron microscope or by intensity fluctuations of the earthmagnetic field.
  • a very heavy shielding of the electron microscope is necessary if the usual ferro-magnetic shielding means are employed.
  • Such a shielding considerably increases the amount of material as well as the weight and the space requirements of the microscope.
  • a particularly solid foundation for the electron microscope is necessary.
  • the preferably ferro-magnetic shielding means of an electronmicroscope are substantially limited to approximately that portion of the electron-optical system which extends between the object and the projection coil, in particular between the electron-optical objective lens and the projection coil.
  • the shielding means are composed of several parts in order to further reduce their weight. It has been found that such a partial shielding sufiiciently reduces the influence of extraneous magnet fields despite the diminution in space and weight obtained thereby.
  • Fig. 1 shows diagrammatically a magnetic electron microscope.
  • l denotes the cathode, 2 the anode, 3 the condensing coil, 4 the objective coil and 5 the projection coil
  • the projection screen 6 is arranged on the bottom of the vacuum vessel enclosing the electron-optical elements of the microscope.
  • The'window 8 serves to observe the projection screen.
  • the shielding arrangement according to the invention consists of a plurality of concentrically arranged metallic cylinders 9 placed between thecoils 4 and 5. Such a shield ing arrangement is sufliciently effective and presents the further advantage that above the plane in which the object lies the electron ray may be moved in any direction over the object by mechanical or preferably, by electron-optical means;
  • the shielding arrangement consists, however, in this case of a cylinder l-2 of metal or ferromagnetic material, to the inner wall of which are secured a plurality of discs 9.
  • the metal cylinder may also serve as the wall of the microscope. Magnetic disturbing fields penetrating from the outside are made ineffective by the cylinder of magnetic material and by the discs consisting of the same material.
  • the shielding arrangement is closed in both embodiments at the ends but for an aperture for the passage of the electron rays. In both embodiments the coils are, as usual, enclosed in metal housings, the latter forming so to say an extension of the shielding arrangement shown in the drawing.
  • Electron microscopes according to the invention have a small weight, but, virtually, do not render the indispensable shielding arrangement less effective against disturbing external magnetic fields than in the case of a completely shielded electron microscope.
  • an electron microscope having a vacuum vessel, means in said vessel for directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and a projection lens for producing a magnified image of said object, in combination, a structure arranged in said vessel .and composed of several ferrometallic cylinders for protecting said beam from disturbances by extraneous magnetic fields, said cylinders being arranged one within the other concentrically to one another and to the optical axis of said system and extending between said objective lens and said projection lens.
  • shielding means for preventing disturbances by extraneous magnetic fields from affecting said beam, said shielding means comprising a plurality of metal cylinders arrangedconcentrically to one another and to the axis of said system between said objective coil and saidprojection coil, the axial lengths of said cylinders being greater with increasin distance from said axis.
  • shielding means for preventing disturbancesby extraneous magnetic fields from afiecting said beam, said shielding means comprising a plurality of metal cylinders arranged concentrically to one another and to the axis of said system between said objective coil and said projection coil, and a metal plate covering the ends of said cylinders facing said.
  • said plate extending radially with respect to said optical axis and havinglacentral aperture of large diameter relative to that of said beam at said plate, said cylinders having difierent axial lengths, the axial lengths of said cylinders being greater with increasing distance from said axis.
  • an electron microscope having a vacuum vessel, means in said vessel for directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and a projection lens for producing a magnified image of said object, in combination, shielding means forfpreventing disturbances by extraneous magnetic metal extending in said vacuum vessel between said objective coil and said projection coil coaxially with said system, and several ferromagnetic plates mounted in said cylinder so as to extend radiall with respect to the optical axis of said system, said plates being spaced from one another along said axis and having each a central aperture.
  • shielding means for preventing disturbances by extraneous magnetic fields from affecting said beam, said shielding means comprising a ferromagnetic cylinder extending between said objective coil and said projection coil coaxially with said system, and several ferromagnetic plates mounted in said cylinder soas to extend radially with respect to the optical axis of said system, said plates being spaced from one another along said axis and having each a central aperture, the diameter of said apertures being large relative to the local diameter of said beam and increasing towards said projection lens.
  • an electron microscope having a vacuum vessel, means in said vessel forv directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and a projection lens for producing a magnified image of said object
  • a structure of fer- I romagnetic sheet metal arranged in said vacuum vessel concentrically to the optical axis of said system for protecting said beam from disturbances by extraneous magnetic fields, said structure being separate from said lenses and extending substantially only over the portion of the electron-optical system between said object lens and said projection lens, said structure comprising a plurality of ferromagnetic elements arranged along said portion.

Description

March 11, 1941. E. RUSKA SHIELDED ELECTRON KICROSYCOPE Filed Feb. 4, 1939 INVENTOR.
ERNST BY ATTORNEYS Patented Mar. 11, 1941 UNITED STATES PATENT OFFICE.
SHIELDED ELECTRON BHCROSCOPE corporation of Germany Application February 4, 1939, Serial No. 254,534 In Germany February 1938 6 Claims.
This invention relates to an electron microscope having shielding means for reducing the disturbing influence of extraneous magnetic fields.
The resolving power of an electron microscope is considerably greater thanthat of the usual light microscope. The greater resolving power, however, can be satisfactorily utilized only if special precautions are taken to eliminate or reduce certain faults peculiar to the electron microscope. Besides the faults due to phenomena originating in the electron-optical system itself such as the diffraction of the electron Waves by the electron-optical objective, the influences of the space charge exerted on the rays, the dispersion of the electrons in the object, and the influence of the speed distribution of the electrons within the electron emitting source, there are faults to be put up with which are caused by eX- traneous disturbances, in particular by the influence on the electron rays of external magnetic fields. Such disturbing fields may be produced by machines or apparatus in the neighborhood of the electron microscope or by intensity fluctuations of the earthmagnetic field. Particularly on account of the long period of the fluctuation of the earths held a very heavy shielding of the electron microscope is necessary if the usual ferro-magnetic shielding means are employed. Such a shielding considerably increases the amount of material as well as the weight and the space requirements of the microscope. In certain cases, further, a particularly solid foundation for the electron microscope is necessary.
It is an object of the present invention to over come the just-mentioned disadvantages and, in particular, to reduce the requirements of the shielded electron microscope as to the amount, weight and compass of the shielding means.
According to the invention, the preferably ferro-magnetic shielding means of an electronmicroscope are substantially limited to approximately that portion of the electron-optical system which extends between the object and the projection coil, in particular between the electron-optical objective lens and the projection coil. According to another feature of the invention, the shielding means are composed of several parts in order to further reduce their weight. It has been found that such a partial shielding sufiiciently reduces the influence of extraneous magnet fields despite the diminution in space and weight obtained thereby.
In the accompanying drawing are shown two embodiments of the invention in diagrammatic form in sectional elevation.
Fig. 1 shows diagrammatically a magnetic electron microscope. l denotes the cathode, 2 the anode, 3 the condensing coil, 4 the objective coil and 5 the projection coil, The projection screen 6 is arranged on the bottom of the vacuum vessel enclosing the electron-optical elements of the microscope. The'window 8 serves to observe the projection screen. The shielding arrangement according to the invention consists of a plurality of concentrically arranged metallic cylinders 9 placed between thecoils 4 and 5. Such a shield ing arrangement is sufliciently effective and presents the further advantage that above the plane in which the object lies the electron ray may be moved in any direction over the object by mechanical or preferably, by electron-optical means;
In Fig. 2, the individual parts of the electron microscope are denoted by the same reference numerals as in Fig. l. The shielding arrangement consists, however, in this case of a cylinder l-2 of metal or ferromagnetic material, to the inner wall of which are secured a plurality of discs 9. The metal cylinder may also serve as the wall of the microscope. Magnetic disturbing fields penetrating from the outside are made ineffective by the cylinder of magnetic material and by the discs consisting of the same material. The shielding arrangement is closed in both embodiments at the ends but for an aperture for the passage of the electron rays. In both embodiments the coils are, as usual, enclosed in metal housings, the latter forming so to say an extension of the shielding arrangement shown in the drawing.
Electron microscopes according to the invention have a small weight, but, virtually, do not render the indispensable shielding arrangement less effective against disturbing external magnetic fields than in the case of a completely shielded electron microscope.
What is claimed is:
1. In an electron microscope having a vacuum vessel, means in said vessel for directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and a projection lens for producing a magnified image of said object, in combination, a structure arranged in said vessel .and composed of several ferrometallic cylinders for protecting said beam from disturbances by extraneous magnetic fields, said cylinders being arranged one within the other concentrically to one another and to the optical axis of said system and extending between said objective lens and said projection lens.
2. In an electron microscope having means for directing an electron beam on an object, and an electron-optical lens system comprising an objective lens'and a projection lens for'producing a magnified image of said object, in combination, shielding means for preventing disturbances by extraneous magnetic fields from affecting said beam, said shielding means comprising a plurality of metal cylinders arrangedconcentrically to one another and to the axis of said system between said objective coil and saidprojection coil, the axial lengths of said cylinders being greater with increasin distance from said axis.
3. In an electron microscope having means for directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and' a projection lens for producing a magnified image of said object, in combination, shielding means for preventing disturbancesby extraneous magnetic fields from afiecting said beam, said shielding means comprising a plurality of metal cylinders arranged concentrically to one another and to the axis of said system between said objective coil and said projection coil, and a metal plate covering the ends of said cylinders facing said. objective coil, said plate extending radially with respect to said optical axis and havinglacentral aperture of large diameter relative to that of said beam at said plate, said cylinders having difierent axial lengths, the axial lengths of said cylinders being greater with increasing distance from said axis.
4.7 In an electron microscope having a vacuum vessel, means in said vessel for directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and a projection lens for producing a magnified image of said object, in combination, shielding means forfpreventing disturbances by extraneous magnetic metal extending in said vacuum vessel between said objective coil and said projection coil coaxially with said system, and several ferromagnetic plates mounted in said cylinder so as to extend radiall with respect to the optical axis of said system, said plates being spaced from one another along said axis and having each a central aperture.
5. In an electron microscope having means for directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and a projection lens for producing a magnified image of said object, in combination, shielding means for preventing disturbances by extraneous magnetic fields from affecting said beam, said shielding means comprising a ferromagnetic cylinder extending between said objective coil and said projection coil coaxially with said system, and several ferromagnetic plates mounted in said cylinder soas to extend radially with respect to the optical axis of said system, said plates being spaced from one another along said axis and having each a central aperture, the diameter of said apertures being large relative to the local diameter of said beam and increasing towards said projection lens.
6. In an electron microscope having a vacuum vessel, means in said vessel forv directing an electron beam on an object, and an electron-optical lens system comprising an objective lens and a projection lens for producing a magnified image of said object, in combination, a structure of fer- I romagnetic sheet metal arranged in said vacuum vessel concentrically to the optical axis of said system for protecting said beam from disturbances by extraneous magnetic fields, said structure being separate from said lenses and extending substantially only over the portion of the electron-optical system between said object lens and said projection lens, said structure comprising a plurality of ferromagnetic elements arranged along said portion.
ERNST RUSKA.
US254534A 1938-02-10 1939-02-04 Shielded electron microscope Expired - Lifetime US2234281A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE2234281X 1938-02-10

Publications (1)

Publication Number Publication Date
US2234281A true US2234281A (en) 1941-03-11

Family

ID=7991559

Family Applications (1)

Application Number Title Priority Date Filing Date
US254534A Expired - Lifetime US2234281A (en) 1938-02-10 1939-02-04 Shielded electron microscope

Country Status (1)

Country Link
US (1) US2234281A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2418321A (en) * 1944-12-30 1947-04-01 Rca Corp Heat dissipating means for electron microscopes
US2424790A (en) * 1942-12-01 1947-07-29 Gen Electric Electron microscope
US2469165A (en) * 1946-10-29 1949-05-03 Rca Corp Correction device for electron lenses
US2838711A (en) * 1951-07-27 1958-06-10 Vickers Electrical Co Ltd Electric discharge devices
US3299308A (en) * 1963-07-19 1967-01-17 Temescal Metallurgical Corp Electron beam traverse of narrow aperture in barrier separating regions of differentpressure
US3927321A (en) * 1974-04-24 1975-12-16 American Optical Corp Electron microscope beam tube
US3959651A (en) * 1974-04-24 1976-05-25 American Optical Corporation Electron microscope
US4985634A (en) * 1988-06-02 1991-01-15 Oesterreichische Investitionskredit Aktiengesellschaft And Ionen Mikrofabrications Ion beam lithography
US5463268A (en) * 1994-05-23 1995-10-31 National Electrostatics Corp. Magnetically shielded high voltage electron accelerator

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2424790A (en) * 1942-12-01 1947-07-29 Gen Electric Electron microscope
US2424788A (en) * 1942-12-01 1947-07-29 Gen Electric Electron microscope
US2418321A (en) * 1944-12-30 1947-04-01 Rca Corp Heat dissipating means for electron microscopes
US2469165A (en) * 1946-10-29 1949-05-03 Rca Corp Correction device for electron lenses
US2838711A (en) * 1951-07-27 1958-06-10 Vickers Electrical Co Ltd Electric discharge devices
US3299308A (en) * 1963-07-19 1967-01-17 Temescal Metallurgical Corp Electron beam traverse of narrow aperture in barrier separating regions of differentpressure
US3927321A (en) * 1974-04-24 1975-12-16 American Optical Corp Electron microscope beam tube
US3959651A (en) * 1974-04-24 1976-05-25 American Optical Corporation Electron microscope
US4985634A (en) * 1988-06-02 1991-01-15 Oesterreichische Investitionskredit Aktiengesellschaft And Ionen Mikrofabrications Ion beam lithography
US5463268A (en) * 1994-05-23 1995-10-31 National Electrostatics Corp. Magnetically shielded high voltage electron accelerator

Similar Documents

Publication Publication Date Title
US2259531A (en) Magnetic electron lens
US2188579A (en) Cathode ray tube, more particularly for television purposes
US2234281A (en) Shielded electron microscope
US2305761A (en) Electron-optical lens
US2058914A (en) Apparatus for producing images of objects
US2452919A (en) Electron optical system
US3924126A (en) Electron microscopes
US3020434A (en) Self shielding electron gun and cathode ray tube system including same
US2429558A (en) Electron beam monochromator
GB1364930A (en) Microscope employing a beam of chargedparticles
US2348853A (en) Cathode ray tube
US4000432A (en) Magnetic shield for image intensifier tube
US2828434A (en) Electron beam focussing device
US2586559A (en) Multiple element electron lens arrangement
US2272353A (en) Electronic microscope
US2185857A (en) Electro-optical image device
US2939954A (en) X-ray shadow microscope
US2420560A (en) Electron microscope
US2707246A (en) Combination focusing-ion trap structures for cathode-ray tubes
US2469165A (en) Correction device for electron lenses
US2225917A (en) Electron discharge device
US2301303A (en) Shielded electronic microscope
US3596090A (en) Particle beam apparatus having an imaging lens which is provided with an associated phase-displacing foil
US3345514A (en) Television camera combined with an electron microscope and having a plurality of cathodoconductive targets
US2110669A (en) Electron optical device