Hydrogen storage alloy

The invention claimed is: 1. A hydrogen storage alloy comprising: a parent phase having an AB 5 -type crystal structure, wherein the A site is constituted from a rare earth element containing La, wherein the B site does not contain Co and contains at least Ni, Al, and Mn, with the molar ratio (Mn/Al) of the content of Mn to the content of Al being 0.60 or more and less than 1.56, and the molar ratio (La/(Mn+Al)) of the content of La to the total content of the content of Al and the content of Mn being more than 0.92, and wherein, in a pressure-composition isothermal chart (PCT curve) at 45° C. an equilibrium hydrogen pressure at a hydrogen storage capacity (H/M) of 0.5 is 0.014 MPa or more and 0.035 MPa or less. 2. The hydrogen storage alloy according to claim 1 , wherein the molar ratio (Mn/Al) of the content of Mn to the content of Al in the B site is 1.15 or more and less than 1.56. 3. The hydrogen storage alloy according to claim 1 , wherein the alloy is represented by a general formula: MmNi a Mn b Al c where Mm represents a rare earth element containing La, a is 4.2 or more and 4.6 or less, b is 0.1 or more and 0.6 or less, and c is 0.1 or more and 0.6 or less, and wherein a ratio ABx of the total number of moles of elements constituting the B site to the total number of moles of elements constituting the A site satisfies 4.85≤ABx≤5.40. 4. The hydrogen storage alloy according to claim 1 , wherein the alloy is represented by a general formula: MmNi a Mn b Al c wherein Mm represents a rare earth element containing La, a is 4.2 or more and 4.6 or less, b is 0.1 or more and 0.6 or less, and c is 0.1 or more and 0.6 or less, and wherein a ratio ABx of the total number of moles of elements constituting the B site to the total number of moles of elements constituting the A site satisfies 5.00≤ABx≤5.40. 5. The hydrogen storage alloy according to claim 1 , wherein an a-axis length obtained by powder X-ray diffraction measurement is 5.03 Å or more and 5.07 Å or less. 6. A negative electrode active material for a nickel-hydrogen battery comprising the hydrogen storage alloy according to claim 1 . 7. A nickel-hydrogen battery using the negative electrode active material according to claim 6 . 8. A nickel-hydrogen battery to be mounted on an electric vehicle or a hybrid electric vehicle, using the negative electrode active material according to claim 6 . 9. The hydrogen storage alloy according to claim 2 , wherein the alloy can be represented by a general formula: MmNi a Mn b Al c wherein Mm represents a rare earth element containing La, and a is 4.2 or more and 4.6 or less, b is 0.1 or more and 0.6 or less, and c is 0.1 or more and 0.6 or less, and wherein a ratio ABx of the total number of moles of elements constituting the B site to the total number of moles of elements constituting the A site satisfies 4.85≤ABx≤5.40. 10. The hydrogen storage alloy according to claim 2 , wherein the alloy is represented by a general formula: MmNi a Mn b Al c wherein Mm represents a rare earth element containing La, and a is 4.2 or more and 4.6 less, b is 0.1 or more and 0.6 or less, and c is 0.1 or more and 0.6 or less, and wherein a ratio ABx of the total number of moles of elements constituting the B site to the total number of moles of elements constituting the A site satisfies 5.00≤ABx≤5.40.