Variable optical splitter system

I claim: 1. A variable V-shaped optical splitter system, consisting of: a V-shaped optical splitter having first and second optically transmissive branches sharing a common optically transmissive base, the first and second optically transmissive branches each defining an optical waveguide, the first and second optically transmissive branches being symmetrical about a central longitudinal axis, the first and second optically transmissive branches each having inner sides angled with respect to the central longitudinal axis and intersecting at a vertex positioned along the central longitudinal axis, the optically transmissive base having a laterally extending input surface longitudinally opposed from the vertex, each of the first and second optically transmissive branches having a laterally extending output surface parallel to and longitudinally opposed to the laterally extending input surface of the base, wherein each of the first and second optically transmissive branches is a parabolic, graded-index planar waveguide having a maximum refractive index along a central axis of the branch, whereby the light beam is split within a graded index vertex area of the optically transmissive base, the light beam being split by an overlap between respective numerical apertures of the first and second optically transmissive branches, the parabolic, graded-index planar waveguide defining each of the first and second optically transmissive branches ensuring confined beam propagation therein, providing for direct mode matching to respective output single-mode optical fibers; and a light source for directing a light beam to the laterally extending input surface, the light beam extending parallel to the central longitudinal axis and orthogonal to the laterally extending input surface, optical power from the light beam being split between the first and second optically transmissive branches in a selectively tunable power split ratio directly proportional to a distance the light beam is laterally displaced from the central longitudinal axis. 2. The variable optical splitter system as recited in claim 1 , wherein each of the inner sides of the first and second optically transmissive branches defines an angle of 15° with respect to the central longitudinal axis. 3. The variable optical splitter system as recited in claim 1 , wherein each of the first and second optically transmissive branches has an outer side extending parallel to the corresponding one of the inner sides. 4. The variable optical splitter system as recited in claim 1 , wherein the power split ratio is directly proportional to the displacement distance for power splits between 50:50 and 90:10 throughout the Short (S), Conventional (C), Long (L), and Ultra-long (U) bands.