Electric linear motion actuator and electric brake system

What is claimed is: 1. An electric linear motion actuator comprising: a rotary shaft configured to be driven by an electric motor; a linear motion device which converts a rotation of the rotary shaft to a linear motion of a linear motion member such that the linear motion member is pressed against an object in an axially forward direction; a load sensor for detecting a magnitude of a load with which the linear motion member is pressed against the object; a temperature compensator for compensating for an influence of temperature on the load sensor; and a clearance controller for adjusting a clearance between the linear motion member and the object to a predetermined value by controlling the electric motor when pressure on the object from the linear motion member is released, wherein the clearance controller is configured to calculate a target rotational angle from a position of the electric motor corresponding to the magnitude of the load detected by the load sensor to a position of the electric motor where the clearance is at the predetermined value, and control the electric motor to rotate the electric motor by the target rotational angle, wherein the load sensor is located axially rearward of the linear motion device so as to axially support the linear motion device through a thrust bearing. 2. The electric linear motion actuator of claim 1 , wherein the load sensor comprises a flange member configured to be deflected by a reaction force to the load with which the object is pressed, a magnetic sensor, and a magnetic target which generates magnetic fields, and wherein the magnetic target is arranged such that a position of the magnetic target relative to the magnetic sensor changes when the flange member is deflected. 3. The electric linear motion actuator of claim 2 , wherein the magnetic target comprises at least two permanent magnets each magnetized in a direction perpendicular to a relative movement direction in which a position of the magnetic sensor relative to the magnetic target changes, wherein the permanent magnets are arranged such that opposite magnetic poles of the permanent magnets are aligned in the relative movement direction, and wherein the magnetic sensor is located in a vicinity of the boundary between the opposite magnetic poles. 4. The electric linear motion actuator of claim 3 , wherein the linear motion device is a planetary roller type linear motion device comprising a plurality of planetary rollers kept in rolling contact with a cylindrical surface on an outer periphery of the rotary shaft, a carrier supporting the planetary rollers so as to be rotatable about respective axes of the planetary rollers while revolving around the rotary shaft, and prevented from axial movement, and an outer ring member surrounding the planetary rollers, wherein the outer ring member has on an inner periphery thereof a helical rib engaged in helical grooves or circumferential grooves formed in outer peripheries of the respective planetary rollers. 5. The electric linear motion actuator of claim 3 , further comprising a rotational angle detector for detecting a rotational angle of the electric motor, wherein the clearance controller is configured to rotate the electric motor in a pressure-reducing direction until the rotational angle detected by the rotational angle detector coincides with the target rotational angle. 6. The electric linear motion actuator of claim 2 , wherein the linear motion device is a planetary roller type linear motion device comprising a plurality of planetary rollers kept in rolling contact with a cylindrical surface on an outer periphery of the rotary shaft, a carrier supporting the planetary rollers so as to be rotatable about respective axes of the planetary rollers while revolving around the rotary shaft, and prevented from axial movement, and an outer ring member surrounding the planetary rollers, wherein the outer ring member has on an inner periphery thereof a helical rib engaged in helical grooves or circumferential grooves formed in outer peripheries of the respective planetary rollers. 7. The electric linear motion actuator of claim 2 , further comprising a rotational angle detector for detecting a rotational angle of the electric motor, wherein the clearance controller is configured to rotate the electric motor in a pressure-reducing direction until the rotational angle detected by the rotational angle detector coincides with the target rotational angle. 8. The electric linear motion actuator of claim 1 , further comprising a rotational angle detector for detecting a rotational angle of the electric motor, wherein the clearance controller is configured to rotate the electric motor in a pressure-reducing direction until the rotational angle detected by the rotational angle detector coincides with the target rotational angle. 9. The electric linear motion actuator of claim 8 , wherein the rotational angle detector comprises a resolver. 10. The electric linear motion actuator of claim 8 , wherein the rotational angle detector comprises a Hall element. 11. The electric linear motion actuator of claim 8 , wherein the rotational angle detector comprises a power supply unit configured to estimate the rotational angle of the electric motor based on a voltage between lines through which power is supplied to the electric motor. 12. The electric linear motion actuator of claim 1 , wherein the linear motion device is a planetary roller type linear motion device comprising a plurality of planetary rollers kept in rolling contact with a cylindrical surface on an outer periphery of the rotary shaft, a carrier supporting the planetary rollers so as to be rotatable about respective axes of the planetary rollers while revolving around the rotary shaft, and prevented from axial movement, and an outer ring member surrounding the planetary rollers, wherein the outer ring member has on an inner periphery thereof a helical rib engaged in helical grooves or circumferential grooves formed in outer peripheries of the respective planetary rollers. 13. The electric linear motion actuator of claim 12 , further comprising a rotational angle detector for detecting a rotational angle of the electric motor, wherein the clearance controller is configured to rotate the electric motor in a pressure-reducing direction until the rotational angle detected by the rotational angle detector coincides with the target rotational angle. 14. The electric linear motion actuator of claim 1 , wherein the linear motion device is a ball-screw type linear motion device comprising a threaded shaft configured to rotate together with the rotary shaft, a nut surrounding the threaded shaft, and a plurality of balls disposed between a thread groove formed in an outer periphery of the threaded shaft and a thread groove formed in an inner periphery of the nut. 15. The electric linear motion actuator of claim 14 , further comprising a rotational angle detector for detecting a rotational angle of the electric motor, wherein the clearance controller is configured to rotate the electric motor in a pressure-reducing direction until the rotational angle detected by the rotational angle detector coincides with the target rotational angle. 16. The electric linear motion actuator of claim 1 , wherein the linear motion device is a ball-ramp type linear motion device comprising a rotary disk configured to rotate together with the rotary shaft, a linear motion disk provided in front of the rotary disk with respect to an axial direction and facing the rotary disk, and balls disposed between inclined grooves formed in a surface of the rotary dis