Liquid crystal composition, phase difference plate, image display device, and method for controlling wavelength dispersion in optically anisotropic layer

The invention claimed is: 1. A liquid crystal composition comprising a polymerizable liquid crystal compound with reverse wavelength dispersion and one of an additive monomer A and an additive monomer B, wherein: the polymerizable liquid crystal compound with reverse wavelength dispersion includes, in a molecule thereof, a main chain mesogen and a side chain mesogen bonded to the main chain mesogen, an optical axis of the main chain mesogen and an optical axis of the side chain mesogen being oriented in different directions when the polymerizable liquid crystal compound with reverse wavelength dispersion is uniformly oriented, whereby birefringence Δn of the polymerizable liquid crystal compound with reverse wavelength dispersion has reverse wavelength dispersion property; and when the additive monomer is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion, the additive monomer A satisfies the following Expression (i) within the wavelength range of λ=380 nm to 780 nm, and the additive monomer B satisfies the following Expression (ii) within the wavelength range of λ=380 nm to 780 nm: ne>nea and no<noa  Expression (i) ne<neb and no>nob  Expression (ii) (wherein ne is a refractive index of the polymerizable liquid crystal compound with reverse wavelength dispersion in a slow axis direction, no is a refractive index of the polymerizable liquid crystal compound with reverse wavelength dispersion in a fast axis direction, nea is a refractive index of the additive monomer A in the ne direction when the additive monomer A is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion, noa is a refractive index of the additive monomer A in the no direction when the additive monomer A is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion, neb is a refractive index of the additive monomer B in the ne direction when the additive monomer B is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion, and nob is a refractive index of the additive monomer B in the no direction when the additive monomer B is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion). 2. A phase difference plate comprising an optically anisotropic layer formed by curing a liquid crystal composition containing a polymerizable liquid crystal compound with reverse wavelength dispersion and an additive monomer A, wherein: in the optically anisotropic layer, the polymerizable liquid crystal compound with reverse wavelength dispersion includes, in a molecule thereof, a main chain mesogen and a side chain mesogen bonded to the main chain mesogen, an optical axis of the main chain mesogen and an optical axis of the side chain mesogen being oriented in different directions, whereby birefringence Δn L ′ of the optically anisotropic layer has reverse wavelength dispersion property; the additive monomer A satisfies the following Expression (i) within the wavelength range of λ=380 nm to 780 nm: ne>nea and no<noa   Expression (i) (wherein ne is a refractive index of the polymerizable liquid crystal compound with reverse wavelength dispersion in a slow axis direction, no is a refractive index of the polymerizable liquid crystal compound with reverse wavelength dispersion in a fast axis direction, nea is a refractive index of the additive monomer A in the ne direction when the additive monomer A is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion, and noa is a refractive index of the additive monomer A in the no direction when the additive monomer A is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion); and the birefringence Δn L ′ of the optically anisotropic layer formed by curing the liquid crystal composition and birefringence Δ L of an optically anisotropic layer formed by uniformly orienting only the polymerizable liquid crystal compound with reverse wavelength dispersion satisfy relationship of Expression (iii): Δ n L (450)/Δ n L (550)>Δ n L ′(450)/Δ n L ′(550) and Δ n L (650)/Δ n L (550)<Δ n L ′(650)/Δ n L ′(550)  Expression (iii) (wherein Δn L (450) and Δn L ′(450) are the birefringence Δn L ′, respectively, at a wavelength of λ=450 nm, Δn L (550) and Δn L ′(550) are the birefringence Δn L and the birefringence Δn L ′, respectively, at a wavelength of λ=550 nm, and Δn L (650) and Δn L ′(650) are the birefringence Δn L and the birefringence Δn L ′, respectively, at a wavelength of λ=650 nm). 3. A phase difference plate comprising an optically anisotropic layer formed by curing a liquid crystal composition containing a polymerizable liquid crystal compound with reverse wavelength dispersion and an additive monomer B, wherein: in the optically anisotropic layer, the polymerizable liquid crystal compound with reverse wavelength dispersion includes, in a molecule thereof, a main chain mesogen and a side chain mesogen bonded to the main chain mesogen, an optical axis of the main chain mesogen and an optical axis of the side chain mesogen being oriented in different directions, whereby birefringence Δn L ′ of the optically anisotropic layer has reverse wavelength dispersion property; the additive monomer B satisfies the following Expression (ii) within the wavelength range of λ=380 nm to 780 nm: ne<neb and no>nob  Expression (ii) wherein ne is a refractive index of the polymerizable liquid crystal compound with reverse wavelength dispersion in a slow axis direction, no is a refractive index of the polymerizable liquid crystal compound with reverse wavelength dispersion in a fast axis direction, neb is a refractive index of the additive monomer B in the ne direction when the additive monomer B is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion, and nob is a refractive index of the additive monomer B in the no direction when the additive monomer B is dispersed in the polymerizable liquid crystal compound with reverse wavelength dispersion); and Δλ the birefringence Δn L ′ of the optically anisotropic layer formed by curing the liquid crystal composition and birefringence Δn L of an optically anisotropic layer formed by uniformly orienting only the polymerizable liquid crystal compound with reverse wavelength dispersion satisfy relationship of Expression (iv): Δ n L (450)/Δ n L (550)<Δ n L ′(450)/Δ n L ′(550) and Δ n L (650)/Δ n L (550)>Δ n L ′(650)/Δ n L ′(550)  Expression (iv) (wherein Δn L (450) and Δn L ′(450) are the birefringence Δn L and the birefringence Δn L ′, respectively, at a wavelength of λ=450 nm, Δn L (550) and Δn L ′(550) are the birefringence Δn L and the birefringence Δn L ′, respectively, at a wavelength of λ=550 nm, and Δn L (650) and Δn L ′(650) are the birefringence Δn L and the birefringence Δn L ′, respectively, at a wavelength of λ=650 nm). 4. A method for producing the phase difference plate according to claim 2 , the method comprising the steps of: applying the liquid crystal composition onto a support; rendering orientation of the applied liquid crystal composition uniform; and fixing the uniform orientation state. 5. A method for producing the phase difference plate according to claim 3 , the method comprising the steps of: applying the liquid crystal composition onto a support; rendering orientation of the applied liquid crystal composition uniform; and fixing the uniform orientation state. 6. An image display device comprising the phase difference plate according to claim 2 . 7. A method for producing a phase difference plate including an optically anisotropic layer f