Display apparatus

1 . A display apparatus comprising: a spatial phase modulator configured to form a display light beam; a transparent substrate, the display light beam propagating in the transparent substrate by repeated internal reflection; a bifurcation configured to emit a portion of the display light beam outside the transparent substrate each time the display light beam undergoes the internal reflection; and a light beam introduction optical system including a beam splitter configured to guide an illumination light beam to the spatial phase modulator and to guide the display light beam formed by the spatial phase modulator to the transparent substrate; wherein the spatial phase modulator forms the display light beam holographically by diffraction of the illumination light beam; and the light beam introduction optical system further includes an optical element with a negative lens power in an optical path of the display light beam between the spatial phase modulator and the transparent substrate. 2 . A display apparatus comprising: a spatial phase modulator configured to form a display light beam; a transparent substrate, the display light beam propagating in the transparent substrate by repeated internal reflection; a bifurcation configured to emit a portion of the display light beam outside the transparent substrate each time the display light beam undergoes the internal reflection; and a light beam introduction optical system including a beam splitter configured to guide an illumination light beam to the spatial phase modulator and to guide the display light beam formed by the spatial phase modulator to the transparent substrate; wherein the spatial phase modulator forms the display light beam holographically by diffraction of the illumination light beam; and the light beam introduction optical system has a negative lens power in an optical path of the display light beam between the spatial phase modulator and the transparent substrate. 3 . A display apparatus comprising: a spatial phase modulator configured to form a display light beam; a transparent substrate, the display light beam propagating in the transparent substrate by repeated internal reflection; a bifurcation configured to emit a portion of the display light beam outside the transparent substrate each time the display light beam undergoes the internal reflection; and a light beam introduction optical system including a beam splitter configured to guide an illumination light beam to the spatial phase modulator and to guide the display light beam formed by the spatial phase modulator to the transparent substrate; wherein the spatial phase modulator forms the display light beam holographically by diffraction of the illumination light beam; the beam splitter comprises a polarizing beam splitter; and the light beam introduction optical system further includes a quarter-wavelength plate between the polarizing beam splitter and the spatial phase modulator. 4 . The display apparatus of claim 1 , wherein the light beam introduction optical system causes the illumination light beam to be incident on the spatial phase modulator by inclining a central light ray of the illumination light beam relative to a normal to the spatial phase modulator. 5 . A display apparatus comprising: a spatial phase modulator configured to form a display light beam; a transparent substrate, the display light beam propagating in the transparent substrate by repeated internal reflection; a bifurcation configured to emit a portion of the display light beam outside the transparent substrate each time the display light beam undergoes the internal reflection; and a light beam introduction optical system including a beam splitter configured to guide an illumination light beam to the spatial phase modulator and to guide the display light beam formed by the spatial phase modulator to the transparent substrate; wherein the spatial phase modulator forms the display light beam holographically by diffraction of the illumination light beam; the light beam introduction optical system causes the light beam to be incident on the spatial phase modulator by inclining a central light ray of the illumination light beam relative to a normal to the spatial phase modulator; and an angle of reflection of zero-order light of the illumination light beam at the spatial phase modulator is greater than half of one display angle of view due to the display light beam. 6 . The display apparatus of claim 3 , wherein zero-order light of the illumination light beam at the spatial phase modulator is removed in a direction in which an angle of view is narrow. 7 . A display apparatus comprising: a spatial phase modulator configured to form a display light beam; a transparent substrate, the display light beam propagating in the transparent substrate by repeated internal reflection; a bifurcation configured to emit a portion of the display light beam outside the transparent substrate each time the display light beam undergoes the internal reflection; and a light beam introduction optical system including a beam splitter configured to guide an illumination light beam to the spatial phase modulator and to guide the display light beam formed by the spatial phase modulator to the transparent substrate; wherein the spatial phase modulator forms the display light beam holographically by diffraction of the illumination light beam; and a coherence length of the display light beam is shorter than a distance of propagation of the display light beam due to undergoing the internal reflection once. 8 . The display apparatus of claim 1 , wherein the display light beam emitted outside the transparent substrate displays a virtual image at infinity. 9 . The display apparatus of claim 1 , wherein zero-order light and first-order light due to the spatial phase modulator are incident on transparent substrate under a condition of the zero-order light passing through the transparent substrate and the first-order light being totally reflected within the transparent substrate. 10 . The display apparatus of claim 1 , wherein the bifurcation comprises a diffraction grating. 11 . The display apparatus of claim 10 , wherein the diffraction grating comprises a volume hologram. 12 . The display apparatus of claim 1 , wherein the bifurcation comprises a prism array. 13 . A display apparatus comprising: a spatial phase modulator configured to form a display light beam; a transparent substrate, the display light beam propagating in the transparent substrate by repeated internal reflection; a bifurcation configured to emit a portion of the display light beam outside the transparent substrate each time the display light beam undergoes the internal reflection; a light beam introduction optical system including a beam splitter configured to guide an illumination light beam to the spatial phase modulator and to guide the display light beam formed by the spatial phase modulator to the transparent substrate; a second transparent substrate on which the display light beam emitted from the transparent substrate is incident, the display light beam propagating in the second transparent substrate by repeated internal reflection; and a second bifurcation configured to emit a portion of the display light beam outside the second transparent substrate each time the display light beam undergoes the internal reflection in the second transparent substrate; wherein the spatial phase modulator forms the display light beam holographically by diffraction of the illumination light beam.