US2253035A - Apparatus for the production of a ray of slow neutrons - Google Patents

Apparatus for the production of a ray of slow neutrons Download PDF

Info

Publication number: US2253035A
Authority: US; United States
Prior art keywords: neutrons; rapid; slow; hydrogen; source
Prior art date: 1938-09-16
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

US295156A

Inventor

Kallmann Hartmut Israel

Kuhn 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.)

IG Farbenindustrie AG

Original Assignee

IG Farbenindustrie AG

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.)

1938-09-16

Filing date

1939-09-15

Publication date

1941-08-19

1939-09-15 Application filed by IG Farbenindustrie AG filed Critical IG Farbenindustrie AG

1941-08-19 Application granted granted Critical

1941-08-19 Publication of US2253035A publication Critical patent/US2253035A/en

1958-08-19 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

- G—PHYSICS
- G21—NUCLEAR PHYSICS; NUCLEAR ENGINEERING
- G21G—CONVERSION OF CHEMICAL ELEMENTS; RADIOACTIVE SOURCES
- G21G4/00—Radioactive sources
- G21G4/02—Neutron sources

Definitions

rapid neutrons also pass through the channel to a considerable extent, because the channel in this apparatus is always directed to the point at which the source of rapid neutrons is situated.
this apparatus it is not possible with this apparatus to produce a beam of slow neutrons that contains only a few rapid neutrons.
rapid and slow neutrons act in quite a difierent manner on radiated substances that are exposed to them.
a channel that is free from the hydrogen-containing substance and which allows the slow neutrons to pass out is directed not to the point of the apparatus from which the rapid neutrons are emitted, but to som other point of the inner hollow chamber which is free from the hydrogen-containing substance.
this gives rise to practically no reduction in the intensity of the emergent ray of slow neutrons because the concentration of the slow neutrons in the interior of the hollow chamber is almost constant at least in the neighborhood of the source of the rapid neutrons and because the distribution of the slow neutrons has no preferred direction.
the channel that is free from hydrogen-containing substance is arranged in some such manner that it is not directed towards the source of rapid neutrons as is illustrated in the accompanying drawing, which is a diagrammatic sectional elevation of one form of apparatus, the slow neutrons are able to pass to the outside just as in the usual manner, but the rapid neutrons are absorbed by the hydrogen-containing substance as before, because before they reach the outside they have to pass through a hydrogencontaining layer of practically the same thickness as if no channel were provided.
the principles of the invention are illustrated in the accompanying drawing which is a diagrammatic representation of apparatus embodying the principles of the invention.
Apparatus for the production of a beam of slow neutrons by the action of rapid neutrons upon a hydrogen-containing substance comprising a body of hydrogen-containing substance having a hollow chamber therein, a source of rapid neutrons positioned in said chamber, and

Landscapes

Chemical & Material Sciences (AREA)
Chemical Kinetics & Catalysis (AREA)
General Chemical & Material Sciences (AREA)
Physics & Mathematics (AREA)
Engineering & Computer Science (AREA)
General Engineering & Computer Science (AREA)
High Energy & Nuclear Physics (AREA)
Particle Accelerators (AREA)

Description

Aug. 19, 1941. 2,253,035

HARTMUT ISRAEL KALLMANN, FORMERLY KNOWN AS HARTMUT KALLMANN ETAL.

APPARATUS FOR THE PRODUCTION OF A RAY 0F SLOW NEUTRONS Filed Sept. 15, 1939 Patented Aug. 19, 1941 APPARATUS FOR THE PRODUCTION OF A BAY OF SLOW NEUTRON S Hartmut Israel Kallmann, formerly known as Hartmut Kallmann, and Ernst Kuhn, Berlin, Germany, assignors to I. G. Farbenindustrie Berlin-Charlottenburg,

Aktiengesellschaft,

Frankfort-on-the-Main, Germany, a corporation of Germany Application September 15, 1939, Serial No. 295,156 In Germany September 16, 1938 1 Claim.

As is well known slow neutrons are produced if a hydrogen-containing substance is exposed to a beam of rapid neutrons. The slow neutrons are produced as a result of collisions between the rapid neutrons and the hydrogen nuclei. In general, in apparatus that has been previously proposed, the source of rapid neutrons is situated within the hydrogen-containing substance, in a hollow space that is free from this hydrogencontaining substance, for example in the interior of'a block of paraffin wax or of a water container. The source of rapid neutrons may be a target of beryllium or lithium, subjected to bombardment by ions, for example, deuterons. In such apparatus the concentration of slow neutrons is greatest in the internal hollow space in which the source of rapid neutrons is situated. The concentration of the slow neutrons decreases considerably in the surrounding hydrogen-containing substance in a direction from inside to outside. Outside the hydrogen-containing substance the intensity of the slow neutron with a given strength of the source of rapid neutrons is determined by the extent in the radial direction, from the position of the neutron source, of the vessel receiving the hydrogen-containing substance. In order to obtain a ray of slow neutrons that is as intense as possible outside the apparatus, it is convenient to provide in the hyrogen-containing substance a channel that is free from this substance and which leads from the inside to the outside so that the slow neutrons, the density of which is greatest in the interior, are able to pass unhindered from the inside to the outside. In apparatus of this kind that has already been proposed, rapid neutrons also pass through the channel to a considerable extent, because the channel in this apparatus is always directed to the point at which the source of rapid neutrons is situated. Thus, it is not possible with this apparatus to produce a beam of slow neutrons that contains only a few rapid neutrons. However, rapid and slow neutrons act in quite a difierent manner on radiated substances that are exposed to them. For certain purposes it is important to produce a beam of slow neutrons that is as free as possible from rapid neutrons without at the same time reducing the intensity of the slow neutrons, and this is the object of the present invention.

According to the invention, a channel that is free from the hydrogen-containing substance and which allows the slow neutrons to pass out, is directed not to the point of the apparatus from which the rapid neutrons are emitted, but to som other point of the inner hollow chamber which is free from the hydrogen-containing substance. However, this gives rise to practically no reduction in the intensity of the emergent ray of slow neutrons because the concentration of the slow neutrons in the interior of the hollow chamber is almost constant at least in the neighborhood of the source of the rapid neutrons and because the distribution of the slow neutrons has no preferred direction. If, in accordance with the invention, the channel that is free from hydrogen-containing substance is arranged in some such manner that it is not directed towards the source of rapid neutrons as is illustrated in the accompanying drawing, which is a diagrammatic sectional elevation of one form of apparatus, the slow neutrons are able to pass to the outside just as in the usual manner, but the rapid neutrons are absorbed by the hydrogen-containing substance as before, because before they reach the outside they have to pass through a hydrogencontaining layer of practically the same thickness as if no channel were provided. The principles of the invention are illustrated in the accompanying drawing which is a diagrammatic representation of apparatus embodying the principles of the invention. In the drawing 4 denotes the hydrogen-containing substance, for example, paraflin wax, the inner hollow chamber that is free from the hydrogen-containing substance, 2 the source of rapid neutrons, comprising, for example, a target of beryllium bombarded by a beam of deuterons represented by the arrow and 3 the channel leading the slow neutrons to the outside. As will be apparent from th drawing, channel 3 passes through the body of hydrogencontaining substance with its inner end adjacent but spaced from the source of fast neutrons, and that it is directed toward a point in chamber I not occupied by the source of fast neutrons, so that fast neutrons from said source cannot pass through said channel to the exterior without passing through a substantial portion of the hydrogen-containing substance and being thereby converted to slow neutrons.

Having now particularly described and ascertained the nature of our said invention and in what manner the same is to be performed, we declare that what we claim is:

Apparatus for the production of a beam of slow neutrons by the action of rapid neutrons upon a hydrogen-containing substance, comprising a body of hydrogen-containing substance having a hollow chamber therein, a source of rapid neutrons positioned in said chamber, and

a unidirectional rectilinear channel extending through said body of hydrogen-containing substance from the exterior thereof, the inner end of said channel being adjacent to but spaced from said source of rapid neutrons and said channel being directed toward a portion of said chamber not occupied by said source of rapid neutrons.

HARTMUT ISRAEL KALLMANN. Formerly known as Hartmut Kallmann.

ERNST KUHN.

US295156A 1938-09-16 1939-09-15 Apparatus for the production of a ray of slow neutrons Expired - Lifetime US2253035A (en)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
DE2253035X		1938-09-16

Publications (1)

Publication Number	Publication Date
US2253035A true US2253035A (en)	1941-08-19

Family

ID=7992455

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US295156A Expired - Lifetime US2253035A (en)	1938-09-16	1939-09-15	Apparatus for the production of a ray of slow neutrons

Country Status (1)

Country	Link
US (1)	US2253035A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2714170A (en) *	1946-05-24	1955-07-26	Bloch Ingram	Neutron selector
US2750144A (en) *	1953-06-22	1956-06-12	Richard C Beckwith	Methods and apparatus for controllably dispensing moisture bearing ingredients
US2981672A (en) *	1952-01-29	1961-04-25	Walter E Kingston	Nuclear reactor fuel element
US3183356A (en) *	1962-07-30	1965-05-11	High Voltage Engineering Corp	Neutron source
US3778627A (en) *	1973-04-17	1973-12-11	Atomic Energy Commission	High intensity, pulsed thermal neutron source
US20090196390A1 (en) *	2008-02-05	2009-08-06	The Curators Of The University Of Missouri	Radioisotope production and treatment of solution of target material
US20100169134A1 (en) *	2008-12-31	2010-07-01	Microsoft Corporation	Fostering enterprise relationships
US8666015B2 (en) *	2001-05-08	2014-03-04	The Curators Of The University Of Missouri	Method and apparatus for generating thermal neutrons using an electron accelerator

1939
- 1939-09-15 US US295156A patent/US2253035A/en not_active Expired - Lifetime

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2714170A (en) *	1946-05-24	1955-07-26	Bloch Ingram	Neutron selector
US2981672A (en) *	1952-01-29	1961-04-25	Walter E Kingston	Nuclear reactor fuel element
US2750144A (en) *	1953-06-22	1956-06-12	Richard C Beckwith	Methods and apparatus for controllably dispensing moisture bearing ingredients
US3183356A (en) *	1962-07-30	1965-05-11	High Voltage Engineering Corp	Neutron source
US3778627A (en) *	1973-04-17	1973-12-11	Atomic Energy Commission	High intensity, pulsed thermal neutron source
US8666015B2 (en) *	2001-05-08	2014-03-04	The Curators Of The University Of Missouri	Method and apparatus for generating thermal neutrons using an electron accelerator
US20090196390A1 (en) *	2008-02-05	2009-08-06	The Curators Of The University Of Missouri	Radioisotope production and treatment of solution of target material
US8644442B2 (en)	2008-02-05	2014-02-04	The Curators Of The University Of Missouri	Radioisotope production and treatment of solution of target material
US20100169134A1 (en) *	2008-12-31	2010-07-01	Microsoft Corporation	Fostering enterprise relationships

Publication	Publication Date	Title
Morrison et al.	1940	Radiative K capture
Shearer et al.	1973	Pair production by relativistic electrons from an intense laser focus
Giler et al.	1980	Ultra-high-energy cosmic rays from clusters of galaxies
US2253035A (en)	1941-08-19	Apparatus for the production of a ray of slow neutrons
US2161985A (en)	1939-06-13	Process of producing radio-active elements
US2287619A (en)	1942-06-23	Device for the production of slow neutrons
US3104321A (en)	1963-09-17	Apparatus for irradiating plastic tubular members with electrons deflected by a non-uniform magnetic field
US3515874A (en)	1970-06-02	Method and apparatus employing an electron target and x-ray filter of the same chemical element for generating x-rays of prescribed energy
GB536941A (en)	1941-06-03	Improvements in x-ray tubes
US2929933A (en)	1960-03-22	Target assembly
Cowsik et al.	1966	3° k blackbody radiation and leakage lifetime of cosmic-ray electrons
Dzhatdoev	2015	On conservative models of “the pair-production anomaly” in blazar spectra at Very High Energies
US2279023A (en)	1942-04-07	Method and device for depicting objects
Sinitsyna et al.	2024	Particle acceleration test with Cas A multiwavelength emission
Ghisellini	1993	High energy emission from AGN
Davies et al.	1955	An alternative identification of the radio source in the direction of the galactic centre
Titarchuk et al.	1994	Hard x-rays from NGC4151: a thermal origin?
Schlickeiser	1980	Astrophysical gamma-ray production by inverse Compton interactions of relativistic electrons. III-Cutoff effect for inverse Compton spectra applied to the case of the hard X-ray and gamma-ray emission of NGC 4151
Gordon	1971	Radiation Transfer of Radio Recombination Lines in the Diffuse Interstellar Medium
Mun et al.	2016	Possibilities of production of neutron-rich Md isotopes in multi-nucleon transfer reactions
Aston	1932	Isotopic Constitution of Lead from Different Sources
GB1101858A (en)	1968-01-31	Process for the production of tea
US2957096A (en)	1960-10-18	Neutron source
Waring et al.	1936	The formation of radio-phosphorus (P30)
Alevra et al.	1964	Evaporation spectra of neutrons from Mn55 (α, n) Co58 and Fe56 (α, n) Ni59 reactions at Eα= 14, 17 and 20 MeV