Electric linear motion actuator and electric disk brake system

What is claimed is: 1. An electric linear motion actuator comprising: a housing; an outer ring member mounted in the housing and having a center axis; a rotary shaft extending along the center axis of the outer ring member and configured to be driven by an electric motor; a carrier supported rotatably about the rotary shaft for rotation relative to the rotary shaft; and a plurality of planetary rollers mounted between a radially outer surface of the rotary shaft and a radially inner surface of the outer ring member, the planetary rollers respectively having planetary roller axes and being rotatably supported by the carrier for rotation about the planetary roller axes, respectively, and the planetary rollers being engaged with the radially outer surface of the rotary shaft and the radially inner surface of the outer ring member, such that, upon rotation of the rotary shaft, the planetary rollers are arranged to revolve around the rotary shaft while rotating about the planetary roller axes, respectively; wherein the radially inner surface of the outer ring member is formed with at least one helical rib, the planetary rollers each having a radially outer surface formed with a plurality of circumferential grooves which are equal in pitch to the helical rib or formed with at least one helical groove equal in pitch to, and different in lead angle from, the helical rib, the helical rib being engaged in the circumferential grooves or the helical grooves of the respective planetary rollers, and wherein the outer ring member and the carrier are configured to be movable in the direction of said center axis relative to each other; and wherein the carrier is immovable in the direction of the center axis of the outer ring member, and the outer ring member is not rotatable and is fitted in a radially inner surface of the housing so as to be slidable in the direction of the center axis of the outer ring member, wherein the outer ring member acts as a linearly movable output member. 2. The electric linear motion actuator of claim 1 , wherein at least one of the radially outer surface of the rotary shaft, the radially outer surface of each of the planetary rollers and the radially inner surface of the outer ring member is subjected to surface hardening treatment. 3. The electric linear motion actuator of claim 2 , wherein said surface hardening treatment is hard plating treatment. 4. The electric linear motion actuator of claim 2 , wherein the member or members that are subjected to surface hardening treatment are made of low carbon steel which contains carbon by 0.3% by mass or less and are subjected to carburizing treatment, or made of medium carbon steel containing carbon by more than 0.3% by mass and are subjected to hardening and tempering. 5. The electric linear motion actuator of claim 1 , wherein said helical rib comprises a helical rib member fitted in a helical groove formed in the radially inner surface of the outer ring member. 6. The electric linear motion actuator of claim 1 , wherein at least either the surface of said helical rib or the circumferential grooves or the helical groove on the radially outer surface of each of the planetary rollers is subjected to surface hardening treatment. 7. The electric linear motion actuator of claim 1 , wherein said at least one helical rib comprises a plurality of helical ribs, and/or said at least one helical groove formed on the radially outer surface of each of the planetary rollers comprises a plurality of helical grooves. 8. The electric linear motion actuator of claim 1 , wherein an equivalent lead angle α of the helical rib is 0.5° or less, where α = tan - 1 ⁢ { D o · tan ⁢  α o - α p  D o + D s } and where D 0 is an inner diameter of the outer ring member, D s is an outer diameter of the rotary shaft; α o is a lead angle of the helical rib, and α p is a lead angle of the helical groove. 9. The electric linear motion actuator of claim 1 , wherein each of the circumferential grooves or the helical groove on the radially outer surface of each of the planetary rollers has its side walls inclined such that the width of the circumferential or helical groove increases from its bottom toward opening. 10. The electric linear motion actuator of claim 9 , wherein said circumferential grooves or the helical grooves of the planetary rollers have edges, and said helical rib has shoulders, and wherein chamfers are formed along at least either said edges or said shoulders. 11. The electric linear motion actuator of claim 10 , wherein said chamfers each comprise a single straight line, a plurality of straight lines, a curved line having a single radius of curvature, or a combination of at least one single straight line and said curved line. 12. The electric linear motion actuator of claim 1 , wherein said helical rib has side surfaces thereof inclined such that the width of the helical rib decreases from a root toward an apex of the helical rib. 13. The electric linear motion actuator of claim 12 , wherein said side surfaces are inclined at an angle equal to an angle of inclination of said side walls. 14. The electric linear motion actuator of claim 12 , wherein at least either said side surfaces or said side walls are curved surfaces which are convex in a direction in which the respective side surfaces or the side walls are inclined. 15. The electric linear motion actuator of claim 14 , wherein the curved surfaces are arcuate surfaces. 16. The electric linear motion actuator of claim 15 , wherein the arcuate surfaces have a radius of curvature larger than a height of said helical rib. 17. An electric disk brake system comprising brake pads, a brake disk, and an electri