Rare earth magnet and method for producing the same

The invention claimed is: 1. A method for producing a rare earth magnet, comprising: a placing step of placing a magnet material including a compact or a sintered body of powder particles having a rare earth magnet alloy, and a diffusing material containing a diffusing element to improve coercivity, in a vicinity of each other; and a diffusing step of diffusing the diffusing element into an inside of the magnet material by exposing the magnet material to vapor of the diffusing element evaporated from the diffusing material; wherein: the diffusing step includes heating the diffusing material independently of the magnet material; the magnet material is heated to a magnet material temperature (Tm) that is higher than a diffusing material temperature (Td) to which the diffusing material is heated; a temperature difference between the magnet material temperature and the diffusion material temperature (ΔT=Tm−Td) is from 20 to 130 deg. C.; the magnet material temperature is from 850 to 900 deg. C.; and the diffusing element is dysprosium. 2. The method for producing a rare earth magnet recited in claim 1 , wherein: the magnet material is the compact of the powder particles, and the diffusing step is performed during a sintering step of sintering the compact. 3. The method for producing a rare earth magnet recited in claim 2 , wherein the diffusing step is performed during a temperature rising stage or a cooling stage of the sintering step. 4. The method for producing a rare earth magnet recited in claim 1 , wherein: the diffusing element is a diffusing rare earth element (hereinafter referred to as “Rd”) which is at least one of rare earth elements; and the diffusing material temperature (Td) is 770 to 830 deg. C. 5. A method for producing a rare earth magnet, comprising: a placing step of placing a magnet material including an unsintered compact of powder particles having a rare earth magnet alloy, and a diffusing material containing a diffusing element to improve coercivity, in a vicinity of each other; and a diffusing step of diffusing the diffusing element into an inside of the magnet material by exposing the magnet material to vapor of the diffusing element evaporated from the diffusing material; wherein: the diffusing step is performed during a temperature rising stage or a cooling stage of a sintering step of heating the unsintered compact to obtain a sintered body; the magnet material is heated to a magnet material temperature (Tm) that is higher than a diffusing material temperature (Td) to which the diffusing material is heated; a temperature difference between the magnet material temperature and the diffusion material temperature (Δ=Tm−Td) is from 20 to 130 deg. C.; the magnet material temperature is from 850 to 900 deg. C.; and the diffusing element is dysprosium. 6. The method for producing a rare earth magnet recited in claim 1 , wherein the temperature difference between the magnet material temperature and the diffusion material temperature (ΔT=Tm−Td) is from 50 to 130 deg. C.