Luminous flux control member, light emitting apparatus, and illuminating apparatus

The invention claimed is: 1. A light flux controlling member configured to control a distribution of light emitted from a light emitting element, the light flux controlling member comprising: an incidence surface on which at least part of light emitted from a light emitting element is incident; a total reflection surface formed at a position facing the light emitting element with the incidence surface therebetween, the total reflection surface being configured to reflect part of light incident on the incidence surface in two opposite directions substantially perpendicular to an optical axis of the light emitting element, and to output the other part of the light incident on the incidence surface; two light guiding sections formed at positions facing each other with the incidence surface and the total reflection surface therebetween, the two light guiding sections being configured to guide part of light incident on the incidence surface and light reflected by the total reflection surface in a direction away from the incidence surface and the total reflection surface; two emission surfaces formed on respective external surfaces of the two light guiding sections, the two emission surfaces being configured to output light guided by the light guiding sections-; and a diffusing member disposed immediately above a position of the light emitting element in such a manner as to cover at least a part of the total reflection surface, the diffusing member including a plurality of prism rows or a plurality of square pyramids disposed on an external surface or an internal surface of the diffusing member, the prism rows and the square pyramids being configured to diffuse light, wherein a longitudinal section of the incidence surface includes an edge, and a cross section of the incidence surface is formed of a curve without any edge, the longitudinal section being cut along the two opposite directions and including the optical axis, the cross section being perpendicular to the longitudinal section and including the optical axis, the light output from the total reflection surface is refractively transmitted through the diffusing member. 2. The light flux controlling member according to claim 1 , wherein the external surface of the total reflection surface and the internal surface of the diffusing member are disposed with an air layer therebetween. 3. The light flux controlling member according to claim 1 , wherein part of light incident on the incidence surface is output without reaching the total reflection surface and the light guiding section. 4. The light flux controlling member according to claim 3 , wherein the two light guiding sections are each provided with a cross-sectional area changing section whose cross-sectional area decreases as distances from the incidence surface and the total reflection surface increase. 5. The light flux controlling member according to claim 1 , wherein the two light guiding sections are each provided with a recess on a side nearer to the light emitting element with respect to a light axis direction of the light emitting element. 6. The light flux controlling member according to claim 5 , wherein an internal surface of the recess includes a second incidence surface on which part of light emitted from the light emitting element is incident, and light incident on the second incidence surface reaches the light guiding section without reaching the total reflection surface. 7. The light flux controlling member according to claim 1 , wherein a material of the light flux controlling member and a material of the diffusing member have a transmittance difference (ΔT) of 15% or lower for light having wavelengths of 400 to 800 nm, the transmittance difference (ΔT) being obtained as follows: each material in a form of a plate having a thickness of 1 mm is irradiated with light having wavelengths of 400 to 800 nm to obtain light transmittances for the wavelengths, and a minimum value (Tmin) of the transmittances is subtracted from a maximum value (Tmax) of the transmittances to obtain transmittance difference (ΔT). 8. A light-emitting device comprising: the light flux controlling member according to claim 1 ; and a light emitting element disposed at a position facing the incidence surface. 9. An illumination apparatus comprising: the light-emitting device according to claim 8 ; and a cover that is disposed in such a manner as to cover the light-emitting device with an air layer interposed between the light-emitting device and the cover.