Optical device

The invention claimed is: 1. An optical device comprising first and second optical elements, wherein said first optical element has: a first liquid crystal element; a first transmissive member formed on said first liquid crystal element and having a light incident surface on which external incident light is incident and a first light-outputting surface through which light reflected by said first liquid crystal element is outputted; and a second transmissive member having a second light-outputting surface through which transmitted light having been transmitted through said first liquid crystal element is outputted; said second optical element has: a second liquid crystal element; and a third transmissive member formed on said second liquid crystal element and joined to said first light-outputting surface; said first liquid crystal element of said first optical element has a first liquid crystal layer containing liquid crystal molecules and having first and second liquid crystal surfaces opposite to each other, and said light incident surface of said first transmissive member is inclined with respect to said first liquid crystal surface. 2. The optical device according to claim 1 , wherein said first liquid crystal element of said first optical element has: a first orientation film that is formed on said first liquid crystal surface and configured to orient said liquid crystal molecules in a first direction in said first liquid crystal surface; a second orientation film that is formed on said second liquid crystal surface and configured to orient said liquid crystal molecules in a second direction orthogonal to said first direction in said second liquid crystal surface; and a first drive electrode that is formed on said first orientation film and configured to generate an electric field for orienting said liquid crystal molecules in said second direction by application of a voltage, and said first and second light transmissive members are formed on said first and second liquid crystal surfaces, respectively. 3. The optical device according to claim 2 , wherein said second liquid crystal element of said second optical element has: a second liquid crystal layer containing liquid crystal molecules and having third and fourth liquid crystal surfaces opposite to each other; third and fourth orientation films formed on said third and fourth liquid crystal surfaces, respectively; and a second drive electrode configured to generate an electric field for orienting the liquid crystal molecules in an in-plane direction of said third liquid crystal surface by application of a voltage. 4. The optical device according to claim 2 , wherein said first transmissive member has a refractive index larger than that of said liquid crystal layer with respect to a first polarized component having an electric field direction in said first direction among said incident light, and has a smaller refractive index than that of said liquid crystal layer with respect to a second polarized component having an electric field direction in said second direction. 5. The optical device according to claim 2 , wherein said light incident surface of said first transmissive member and said second light-outputting surface of said second transmissive member are disposed in parallel with each other. 6. The optical device according to claim 1 , comprising a beam splitter formed on said second light-outputting surface of the second transmissive member.