Dielectric waveguide signal divider

What is claimed is: 1. A dielectric waveguide system comprising: a dielectric wave guide (DWG) having a longitudinal core member with a first dielectric constant value surrounded by a cladding with a cladding dielectric constant value that is lower than the first dielectric constant value; a signal divider having at least three ports, wherein a first port is connected to receive a signal from the DWG and a second port and third port are each configured to output a portion of the signal received on the first port, wherein the first and second port are approximately in line and the third port is at an angle to a line formed by the first port and the second port; and wherein the first port has a core member with the first dielectric constant value, the second port has a core member with the first dielectric constant value, and the third port has a core member with a second dielectric constant value that is higher than the first dielectric constant value. 2. The DWG system of claim 1 , wherein the core member of the third port includes a curved portion. 3. The DWG system of claim 2 , further comprising a continuous core member region having the first dielectric constant value between the first port and the second port. 4. The DWG system of claim 1 , further comprising: a transmitting device coupled to the DWG and operable to launch a radio frequency (RF) signal into the DWG; a first receiving device coupled to the second port and operable to receive a portion of the RF signal from the second port; and a second receiving device coupled to the third port and operable to receive a portion of the RF signal from the third port. 5. The DWG system of claim 1 , wherein the first dielectric constant value is selected from a range of approximately 2.4-12 and the cladding dielectric constant is selected from a range of approximately 2.0-4.5. 6. The DWG system of claim 1 , further comprising an impedance matching DWG portion coupled to the third port, wherein the impedance matching DWG portion has a core member in which the dielectric constant gradually changes from the second dielectric constant value to the first dielectric constant value. 7. A method for communicating using a dielectric waveguide (DWG), the method comprising: launching an electromagnetic signal into a core member of the DWG, wherein the core member has a first dielectric constant value; passing the electromagnetic signal into a transition core region having a dielectric constant value that gradually changes from the first dielectric constant value to a higher dielectric constant value; and splitting the electromagnetic signal by impressing the electromagnetic signal against a curved interface region between the transition core region having the higher dielectric constant value and another core region having a lower dielectric constant value, such that a portion of the electromagnetic signal proceeds straight through the curved interface region to a first output port while a second portion of the electromagnetic signal is reflected by the curved interface and proceeds to a second output port. 8. The method of claim 7 , further comprising passing the second portion of the electromagnetic signal through a second transition region having a dielectric constant value that gradually changes from the higher dielectric constant value to the first dielectric constant value.