RU82919U1 - DEVICE FOR STORING THERMAL NEUTRONS - Google Patents

Abstract

The invention relates to the field of neutron optics and pulsed neutron sources and is a device for the accumulation of thermal neutrons. Using an external source of neutron beams to increase their density and rise amplitude, it also converts a constant source into a pulsed one. A device for accumulating thermal neutrons containing a neutron guide channel connected to a neutron storage channel and a neutron removal channel, the neutron guide channel has the shape of an arc of variable radius, and the neutron storage device is made in the form of an annular torus having an opening in its wall for connection with the neutron guide channel , a neutron-reflecting mirror is installed in the region of this hole with the possibility of its movement for connecting the cavity of the neutron storage ring with the neutron removal channel. The neutron guide channel is located at an acute angle of 6 to 10 degrees with respect to the plane of the neutron storage ring. Fig. - 2; forms. - 2 p.ph.

Description

The invention relates to the field of neutron optics and pulsed neutron sources.

The known neutron storage device comprises a neutron guide and a chamber made of solid material, for example, copper, the standard Joffe-Pritchard type trap widely used in atomic physics, is a magnetic quadrupole [or sextupole], which creates a reflective barrier in the radial direction, and two solenoids at the ends quadrupole, creating reflecting gradients on the axis of the quadrupole near its ends. (MEASUREMENT OF THE NEUTRON HALF-TIME IN A MAGNETIC TRAP Laboratory of Molecular and Atomic Beams Laboratory Head V.F. Ezhov, Candidate of Physics and Mathematics)

A device of this type has a significant drawback, only ultracold neutrons can be held in them, which has no practical application and is not able to hold thermal energy neutrons.

Closer in essence, the device was not identified by the applicant from available information sources.

The technical result of the invention is a device for the accumulation of thermal neutrons. Using an external source of neutron beams to increase their density and rise amplitude, it also converts a constant source into a pulsed one. Since the speed of thermal neutrons is several hundred times greater than that of ultracold ones, and n is close to 1 (1 - n≈10 ^-5 ). With a falling fall on

the surface of a dense substance a beam of thermal neutrons also experiences complete reflection, similar to the total internal reflection of light. This takes place at slip angles φ≤φ _cr , i.e. at angles of incidence

The critical angle is determined from the condition:

For example, for copper φ _cr = 9.5 '. (1) (2) (3) (4)

A device for accumulating thermal neutrons containing a neutron guide channel connected to a neutron storage channel and a neutron removal channel, the neutron guide channel has the shape of an arc of variable radius, and the neutron storage device is made in the form of an annular torus having an opening in its wall for connection with the neutron guide channel , a neutron-reflecting mirror is installed in the region of this hole with the possibility of its movement for connecting the cavity of the neutron storage ring with the neutron removal channel. A neutron guide channel is located at an acute angle of 6 to 10 degrees with respect to the plane of the neutron storage ring.

Figure 1 shows a device with a longitudinal section; figure 2-with a cross section. This is achieved by the fact that a neutron guide is introduced into the housing 1, through which a beam of thermal monochrome neutrons 2 is fed into the neutron guide channel 3, made in the form of an arc with a variable radius and connected to the neutron storage device 4, which is made in the form of a ring torus, also equipped with an exhaust mirror 5 and connected to the channel of neutron removal 6. Channel-

the neutron guide is located in relation to the neutron storage ring at an angle of 6-8 degrees relative to their planes 7. The robot device is carried out with the introduction of beams of monochrome thermal neutrons 2 are introduced through the channel-neutron guide 3 at a sliding angle of 6-8 degrees, where the neutrons experience total internal reflection from the channel walls and enter the neutron storage ring 4, where they are repeatedly reflected at sharp angles and move inside the ring torus for some time. Part of the wall of the annular torus is equipped with a movable neutron-reflecting mirror 5, which, moving away, releases accumulated thermal neutrons into the neutron removal channel 6.

The thermal neutron storage device allows increasing the power of neutron beams as a result of their addition, which improves the characteristics of the primary neutron source and is used in technologies for producing nuclear thermonuclear microexplosions.

Lit.: 1 Fermi E., Lectures on atomic physics, trans. from English., M., 1952; Hughes D.,

2 Neutron optics, trans. from English., M., 1955; Gurevich I.I., Tarasov L.V.,

3 Physics of low-energy neutrons, M., 1965; Frank I.M.,

4 Some New Aspects of Neutron Optics, Nature, 1972.

Claims (2)

1. A device for the accumulation of thermal neutrons, containing a neutron guide channel connected to a neutron storage channel and a neutron removal channel, characterized in that the neutron guide channel has the shape of an arc of variable radius, and the neutron storage device is made in the form of an annular torus having an opening in its wall for connection with the neutron guide channel, a neutron-reflecting mirror is installed in the region of this hole with the possibility of its movement to connect the cavity of the neutron storage ring with the neutron removal channel. 2. The device for the accumulation of thermal neutrons according to claim 1, characterized in that the neutron guide channel is located at an acute angle from 6 to 10 ° with respect to the plane of the neutron storage ring.