Toner

What is claimed is: 1. A toner comprising a toner particle containing a binder resin and a wax, wherein a cross-section of the toner observed under a transmission electron microscope shows at least 5 wax domains having an aspect ratio of at least 5, and the toner satisfies the following formulae (1) to (3): Ps/Pd≤0.90  (1) 2.20≤Ph/Pd  (2) 0.50≤Pd≤3.00  (3) where Pd represents an intensity of the highest absorption peak in a range of 2843 cm −1 to 2853 cm −1 when an intensity of the highest absorption peak in a range of 3022 cm −1 to 3032 cm −1 is set to 1.00 in an FT-IR spectrum of the toner obtained by an attenuated total reflectance (ATR) method with an infrared light-incidence angle of 45° using diamond as the ATR crystal; Ps represents an intensity of the highest absorption peak in a range of 2843 cm −1 to 2853 cm −1 when an intensity of the highest absorption peak in a range of 3022 cm −1 to 3032 cm −1 is set to 1.00 in an FT-IR spectrum of the toner obtained by the ATR method with an infrared light-incidence angle of 45° using germanium as the ATR crystal; and Ph represents an intensity of the highest absorption peak in a range of 2843 cm −1 to 2853 cm −1 when an intensity of the highest absorption peak in a range of 3022 cm −1 to 3032 cm −1 is set to 1.00 in an FT-IR spectrum of a toner sample obtained by the ATR method with an infrared light-incidence angle of 45° using germanium as the ATR crystal, and the toner sample is obtained by heating the toner at 150° C. for 0.10 seconds and then leaving same to cool to 25° C. 2. The toner according to claim 1 , wherein the content of the wax is 2.0 to 30.0 mass parts per 100.0 mass parts of the binder resin. 3. The toner according to claim 1 , wherein the binder resin is a styrene acrylic resin. 4. The toner according to claim 1 , wherein the wax is a hydrocarbon wax. 5. The toner according to claim 1 , wherein the number of wax domains with an aspect ratio of at least 5 in a cross-section of the toner when the toner cross-section is observed under a transmission electron microscope is not more than 150. 6. The toner according to claim 1 , wherein the endothermic quantity per unit mass derived from the wax in differential scanning calorimetric (DSC) measurement of the toner is 80 to 100.0% given 100.0% as an endothermic quantity per unit mass of the wax alone in DSC measurement. 7. The toner according to claim 1 , wherein the toner particle has a core-shell structure, in which the core contains the binder resin and the wax, and the shell contains a polar resin.