Abstract: A magnetic detector comprises a first magnetic sensor configured to measure a first magnetic field component, a second magnetic sensor configured to measure a possible magnetic field component, a processor, and a memory configured to store a program. The program comprises closest proximity detection processing of detecting a timing at which the magnetic body passes a closest proximity position, closest proximity position component acquisition processing of acquiring the first magnetic field component measured at the timing and the possible magnetic field component, predetermined position component acquisition processing of acquiring the first magnetic field component when the magnetic body is at a predetermined position, distance estimation processing of estimating a third direction distance, and magnetic moment amount estimation processing of estimating a magnitude of the magnetic moment.

Abstract: A magnetic sensor comprises a magnetic material portion; an excitation portion; and a magnetic detection portion, the magnetic sensor detecting a magnetic field by the magnetic detection portion detecting a detection magnetic field generated due to magnetic moments of the magnetic material portion. The excitation portion is configured to include a conductive material formed into an elongated shape, the magnetic material portion is a soft magnetic film formed on a surface of the conductive material, and the magnetic moments of the magnetic material portion are oriented along circumferential directions of the conductive material orthogonal to a longitudinal direction of the conductive material such that the magnetic moments directed to one of the circumferential directions and the magnetic moments direction in another circumferential direction opposite to the one circumferential direction are distributed in substantially equal amounts.

Abstract: A measurement device includes a sensing portion and a measuring portion. The sensing portion contains at least a fluorescent material whose emitting of fluorescent light ceases due to an action of a radioactive beam. The measuring portion measures a radiation quantity of the radioactive beam, with which the sensing portion is irradiated, based on an amount of decrease in the intensity of the fluorescent light emitted by the fluorescent material contained in the sensing portion when the radioactive beam acts on at least a portion of the fluorescent material. The fluorescent light is emitted due to irradiation of the fluorescent material by an excitation source.

Abstract: A measuring device includes at least two magnetic sensors capable of selectively measuring a magnitude of a component in a specific direction of a magnetic field. The measuring device repeatedly acquires, at a plurality of timings, a measurement value indicating the magnitude of the magnetic field detected by each of the at least two magnetic sensors. The measuring device identifies the measurement value having the largest absolute value, from among at least two measurement values acquired at a specific timing from each of the at least two magnetic sensors. The measuring device identifies a first magnetic sensor that has detected the identified measurement value having the largest absolute value. The measuring device identifies, based on a time change in the acquired measurement value, a distance in an orthogonal direction that is orthogonal to the specific direction, between an object to be measured and the identified first magnetic sensor.

Abstract: In a magnetic material detection device comprising: at least two magnetic sensors; and a control device detecting a magnetic material by using output values of the magnetic sensors, the magnetic sensors are arranged at an interval of a predetermined distance from each other such that a subject is located outside a space therebetween, and the control device detects the magnetic material by comparing time change amounts of output values of the magnetic sensors resulting from a change in relative position between the subject and each of the magnetic sensors, with utilizing that an absolute value of the time change amount becomes larger in one of the magnetic sensors close to the subject as compared to another of the magnetic sensors far from the subject.

Abstract: A boron neutron capture therapy system has a neutron beam irradiation device, a patient restraint/placement portion, a three-dimensional diagnostic device, an irradiation table, a position adjustment mechanism, and a control unit. The boron neutron capture therapy system performs position determination with a sufficient degree of accuracy at the time of the boron neutron capture therapy. Further, the control unit, using the movement of the irradiation table, performs collision avoidance processing that changes the movement of the irradiation table before the patient restrained on the patient restraint/placement portion receives injury by colliding with the irradiation port, and thus, collision between the patient and the irradiation port can be avoided.

Abstract: A magnetic sensor comprises a magnetic material portion; an excitation portion; and a magnetic detection portion, the magnetic sensor detecting a magnetic field by the magnetic detection portion detecting a detection magnetic field generated due to magnetic moments of the magnetic material portion. The excitation portion is configured to include a conductive material formed into an elongated shape, the magnetic material portion is a soft magnetic film formed on a surface of the conductive material, and the magnetic moments of the magnetic material portion are oriented along circumferential directions of the conductive material orthogonal to a longitudinal direction of the conductive material such that the magnetic moments directed to one of the circumferential directions and the magnetic moments direction in another circumferential direction opposite to the one circumferential direction are distributed in substantially equal amounts.

Abstract: In a magnetic material detection device comprising: at least two magnetic sensors; and a control device detecting a magnetic material by using output values of the magnetic sensors, the magnetic sensors are arranged at an interval of a predetermined distance from each other such that a subject is located outside a space therebetween, and the control device detects the magnetic material by comparing time change amounts of output values of the magnetic sensors resulting from a change in relative position between the subject and each of the magnetic sensors, with utilizing that an absolute value of the time change amount becomes larger in one of the magnetic sensors close to the subject as compared to another of the magnetic sensors far from the subject.

Abstract: A stretcher has a rectangle-shaped subject placement portion on which a subject is placed and a carrying device carrying the subject placement portion, comprising: a switching part switched to any one of at least two states; and a switching device switching a state of the switching part in accordance with a supplied gas pressure. The at least two states include a state in which the switching part prevents movement of the subject placement portion and a state in which the switching part allows the movement.

Abstract: An operating table includes a patient placement table for placing and securing a patient in a required posture; a main body for supporting the patient placement table; engaging pieces for removably coupling the patient placement table to the main body; and a motor for rotating the patient placement table with a head-feet direction of the patient as a rotation axis to hold the patient placement table at any given rotation angle.

Abstract: Magnetic-field measuring device having: elongate magnetic-material formed of solid or liquid having magnetic-anisotropy, or composite of solid and liquid; an electrically conductive-body adjacent to magnetic-material, giving magnetic-material a current-induced magnetic-field-vector having a component perpendicular to longitudinal-directions of magnetic-material; coil detecting magnetic-field by magnetic-material, which is magnetized in a direction perpendicular to its longitudinal-direction when no external magnetic-field is applied to magnetic-material or when only a magnetic-field not having a component in longitudinal-direction applied to magnetic-material, and magnetizing in direction having the component in longitudinal-direction when external magnetic-field have the component in longitudinal-direction of magnetic-material applied to magnetic-material, a direction of magnetization of magnetic-material aligned with direction perpendicular to longitudinal-direction of magnetic-material when magnetic-materi

Abstract: A fixing-tool mounting device mounting a fixing tool including a curved surface formed in accordance with a shape of a body surface on a body part of a subject onto the body part of the subject set to a predetermined posture angle, including: a moving mechanism moving the fixing tool in at least one axial direction relative to the body of the subject; an angle adjustment mechanism adjusting an angle of the fixing tool around at least one axis relative to the body of the subject; and a pressure detecting portion configured to, after the fixing tool contacts with the body part of the subject, detect a pressure generated between the fixing tool and the body part.

Abstract: A holding device wherein: a holding tool including a curved and rigid surface formed in accordance with a shape of a body surface of a body part of a subject along with an adhesive layer having adhesiveness to a skin surface of the subject on the curved and rigid surface side; an elongated arm member having one end portion to which the holding tool is attached; and a fixing tool for fixing the arm member to a fixed object, attached to an end portion of the arm member on the side opposite to the end portion on the side to which the holding tool is attached.

Abstract: A magnetic-field detecting device includes a pair of magneto-sensors including respective magnetism sensing portions that sense magnetism, and respective coils sensing changes of magnetic fluxes in the magnetism sensing portions, and an elongate connecting member cooperating with the magnetism sensing portions to constitute a magnetic circuit. A magnetism sensing direction of the magnetism sensing portions coincides with a longitudinal direction of the connecting member to an extent that permits the coils to equally sense a magnetic field applied to the coils the connecting member being formed of a magnetic material having a relative magnetic permeability of at least 100, a magnetic material having a relative magnetic permeability which is at least 1/100 of that of a magnetic material of the magnetism sensing portions, or the same magnetic material as the magnetism sensing portions the magnetic-field sensor measuring the magnetism on the basis of a difference between outputs of the coils.

Abstract: A stretcher has a rectangle-shaped subject placement portion on which a subject is placed and a carrying device carrying the subject placement portion, comprising: a switching part switched to any one of at least two states; and a switching device switching a state of the switching part in accordance with a supplied gas pressure. The at least two states include a state in which the switching part prevents movement of the subject placement portion and a state in which the switching part allows the movement.

Abstract: An operating table includes a patient placement table for placing and securing a patient in a required posture; a main body for supporting the patient placement table; engaging pieces for removably coupling the patient placement table to the main body; and a motor for rotating the patient placement table with a head-feet direction of the patient as a rotation axis to hold the patient placement table at any given rotation angle.

Abstract: A magnetic-field detecting device includes a pair of magneto-sensors including respective magnetism sensing portions that sense magnetism, and respective coils sensing changes of magnetic fluxes in the magnetism sensing portions, and an elongate connecting member cooperating with the magnetism sensing portions to constitute a magnetic circuit. A magnetism sensing direction of the magnetism sensing portions coincides with a longitudinal direction of the connecting member to an extent that permits the coils to equally sense a magnetic field applied to the coils the connecting member being formed of a magnetic material having a relative magnetic permeability of at least 100, a magnetic material having a relative magnetic permeability which is at least 1/100 of that of a magnetic material of the magnetism sensing portions, or the same magnetic material as the magnetism sensing portions the magnetic-field sensor measuring the magnetism on the basis of a difference between outputs of the coils.