Driving the common-mode of a josephson parametric converter using a three-port power divider

What is claimed is: 1. An on-chip Josephson parametric converter, comprising: a Josephson ring modulator; and a lossless power divider, coupled to the Josephson ring modulator, having a single input port and two output ports for receiving a pump drive signal via the single input port, splitting the pump drive signal symmetrically into two signals that are equal in amplitude and phase, and outputting each of the two signals from a respective one of the two output ports, wherein the pump drive signal excites a common mode of the on-chip Josephson parametric converter, and wherein the lossless power divider comprises at least one microwave filter for at least mitigating any signal leakage from the on-chip Josephson parametric converter through the lossless power divider. 2. The on-chip Josephson parametric converter of claim 1 , further comprising one or more coupling capacitors for capacitively coupling the lossless power divider to the Josephson ring modulator. 3. The on-chip Josephson parametric converter of claim 1 , further comprising a plurality of feedlines for receiving a first mode signal, and a second mode signal, and the pump drive signal. 4. The on-chip Josephson parametric converter of claim 3 , wherein at least some of the plurality of feedlines are disposed at different on-chip locations. 5. The on-chip Josephson parametric converter of claim 3 , further comprising a first resonator and a second resonator that intersect at the Josephson ring modulator and respectively enable a first and a second differential mode of the on-chip Josephson parametric converter, and wherein at least some of the plurality of feedlines are connected to the first and second resonators and comprise a respective microwave filter for filtering microwave signals at at least one of a pump frequency and second harmonic resonance frequencies of the first and second resonators. 6. The on-chip Josephson parametric converter of claim 3 , further comprising respective coupling capacitors for coupling respective ones of the at least some of the plurality of feedlines to the Josephson ring modulator. 7. The on-chip Josephson parametric converter of claim 1 , wherein the lossless power divider is a passive device consisting of one or more passive elements. 8. The on-chip Josephson parametric converter of claim 1 , wherein the lossless power divider comprises a three port passive element. 9. The on-chip Josephson parametric converter of claim 1 , wherein the lossless power divider comprises lumped-circuit elements. 10. The on-chip Josephson parametric converter of claim 1 , further comprising transmission lines and feedlines, wherein the incoming signals to and outgoing signals from the lossless power divider travel on same ones of the transmission lines and same ones of the feedlines. 11. The on-chip Josephson parametric converter of claim 1 , wherein the at least one microwave filter is provided at the single input port or at one or both of the two output ports of the lossless power divider. 12. A method, comprising: forming an on-chip Josephson parametric converter, wherein said forming step includes: forming a Josephson ring modulator; and forming a lossless power divider, capacitively coupled to the Josephson ring modulator, having a single input port and two output ports for receiving a pump drive signal via the single input port, splitting the pump drive signal symmetrically into two equal phase signals, and outputting each of the two equal phase signals from a respective one of the two output ports, wherein the pump drive signal excites a third mode that is a common mode of the on-chip Josephson parametric converter, and wherein the lossless power divider is formed to include at least one microwave filter for at least mitigating any signal leakage from the on-chip Josephson parametric converter through the lossless power divider. 13. The method of claim 12 , further comprising forming a coupling capacitor for capacitively coupling the lossless power divider to the Josephson ring modulator. 14. The method of claim 12 , further comprising forming a plurality of feedlines, each for respectively carrying incoming and outgoing waves of a first mode signal, and a second mode signal, and the pump signal. 15. The method of claim 14 , further comprising: forming a first and a second resonator that intersect at the Josephson ring modulator and respectively enable a first and a second mode of the on-chip Josephson parametric converter; and connecting at least some of the plurality of feedlines to the first and second resonators, and wherein forming a plurality of feedlines comprises forming a respective microwave filter in each of the at least some of the plurality of feedlines for filtering microwave signals at the pump frequency and/or the respective second harmonic resonance frequencies of the first and second resonators. 16. The method of claim 12 , wherein the lossless power divider is formed as a passive device consisting of one or more passive elements. 17. The method of claim 12 , wherein the lossless power divider is formed using lumped-circuit elements. 18. The method of claim 12 , further comprising: forming transmission lines and feedlines; and configuring the on-chip Josephson parametric converter to operate such that incoming signals to and outgoing signals from the on-chip Josephson parametric converter travel on same ones of the transmission lines and same ones of the feedlines.