Optical element, transfer foil, authentication medium, and method of verifying authentication medium

What is claimed is: 1. An optical element, comprising: a first layer, a second layer contacting the first layer, and a third layer contacting the second layer, each layer having optical transparency, wherein the first layer is a resin layer having a first refractive index and having a first surface contacting the second layer, at least part of the first surface including a subwavelength grating; the second layer is a dielectric layer having a second refractive index which is higher than the first refractive index and having a second surface contacting the first surface of the first layer, the second surface having asperities conforming to the subwavelength grating; the third layer is a resin layer having a third refractive index lower than the second refractive index; any of the first layer, the second layer, and the third layer is a relief layer, the relief layer having a relief surface including a plurality of reflective surfaces, the reflective surfaces adjacent to each other having a pitch therebetween greater than a pitch of the subwavelength grating; when observing a state in which light is applied to the optical element from a light source located on a side of the second layer opposite to that facing the third layer, from the light source side, the subwavelength grating displays a colored image exhibiting a color corresponding to a grating period of the subwavelength grating in reflection directions including a specular reflection direction, and the relief surface displays a reflection image in monochromatic reflected light in reflection directions including a direction different from the specular reflection direction; the optical element has a first state in which neither the colored image nor the reflection image is displayed, a second state in which the colored image is mainly displayed, and a third state in which the reflection image is mainly displayed; a plane in which the optical element is disposed and a plane including a line of sight of an observer form an observation angle therebetween; the optical element is observed in any of the first state, the second state, and the third state according to the observation angle, and the second layer is the relief layer; and the relief surface is a surface of the second layer facing away from the second surface. 2. The optical element of claim 1 , wherein the optical element is observed in a state in which the colored image is displayed in a first observation angular range, and is observed in a state in which the reflection image is displayed in a second observation angular range; and the second observation angular range is greater than the first observation angular range. 3. The optical element of claim 1 , wherein the colored image and the reflection image are correlated to each other. 4. The optical element of claim 3 , wherein the reflection image is located outside the colored image and has a shape conforming to a contour of the colored image. 5. The optical element of claim 3 , wherein either of the colored image and the reflection image has a shape representing a predetermined symbol or a predetermined object; and the other of the colored image and the reflection image represents characters indicating the shape. 6. The optical element of claim 3 , wherein the colored image, coupled with the reflection image, provides a shape representing a set of objects. 7. A transfer foil, comprising: an adhesive member, the adhesive member including the optical element of claim 1 , and, an adhesive layer for adhering the optical element to a transfer target. 8. An authentication medium comprising the optical element of claim 1 , wherein the optical element covers identification information. 9. The authentication medium of claim 8 , further comprising a display layer displaying predetermined information. 10. A method of verifying an authentication medium, comprising the steps of: verifying authenticity of the authentication medium of claim 9 by an observer tilting the authentication medium up and down and observing the authentication medium in a state in which a light source is located obliquely above a plane including a line of sight of the observer.