Receiver optical module for wavelength multiplexed signal

What is claimed is: 1. A receiver optical module for receiving a wavelength multiplexed signal containing a plurality of signal components each having a wavelength specific thereto and different from the others, comprising: an optical de-multiplexer that de-multiplexes the wavelength multiplexed signal, the optical de-multiplexer including sub-elements stacked to each other, the sub-elements each having an input surface, a body, and an output surface, the input surface providing a wavelength selective filter (WSF) belonging to a first group and the body providing a plurality of WSFs belonging to a second group; and photodiodes (PDs) that receive signal components independently, wherein the signal components contained in the wavelength multiplexed signal are spilt by the first group of the WSFs to respective bodies, wherein respective signal components split by the first group of the WSFs are de-multiplexed by the second group of the WSFs, and wherein the output surfaces have respective mirrors that reflect the signal components de-multiplexed by the second group of WSFs toward a stacking direction of the sub-elements. 2. The receiver optical module of claim 1 , wherein one of the WSFs in the first group provided in one of the sub-elements that first receives the wavelength multiplexed signal transmits a portion of the signal components toward the body of the one of the sub-elements, and reflects a rest portion of the signal components toward the rest of the sub-elements, and wherein the rest of the WSFs in the first group provided in the rest of the sub-elements each reflects a respective portion of the signal components toward the body of a respective one of the rest of the sub-elements. 3. The receiver optical module of claim 1 , wherein the input surfaces of respective sub-elements are overlapped in the stacking direction. 4. The receiver optical module of claim 3 , wherein the output surfaces of respective sub-elements are diagonally arranged relative to the stacking direction. 5. The receiver optical module of claim 4 , wherein the bodies of respective sub-elements each includes an input trapezoid, a parallelogram block, and an output trapezoid, the input trapezoid and the parallelogram block providing an interface providing a mirror, the parallelogram block and the output trapezoid providing another interface providing the WSFs in the second group, the interface and the another interface being inclined with an optical axis of the portion of the signal components split by the WSFs in the first group and entering the body, and wherein at least one of the input trapezoid and the output trapezoid of respective bodies has a longitudinal length gradually increasing as the stack of the sub-elements increases. 6. The receiver optical module of claim 4 , wherein each of the bodies further includes an input triangle providing the input surface and an output triangle providing the output surface. 7. The receiver optical module of claim 1 , wherein the PDs are arranged in an array of n×m, where n is a number of the stack of the sub-elements, and m is a number of the signal components de-multiplexed by the WSFs in the second group in respective sub-elements.