Squid-based traveling wave parametric amplifier

What is claimed is: 1. A traveling wave parametric amplifier, comprising: an input configured to receive a weak signal and a pump signal; a transmission line in communication with the input and configured to transmit the weak signal and the pump signal, wherein the transmission line comprises a plurality of coupled asymmetric SQUIDs configured to amplify the weak signal to provide an amplified signal, the plurality of coupled asymmetric SQIUDS defining a ladder-like structure, and each of the plurality of coupled asymmetric SQUIDs comprising a plurality of Josephson junctions including at least one of a smaller Josephson energy junction and more than one of a larger Josephson energy junction having a higher critical current than the smaller Josephson energy junction; and an output from which the amplified signal exits. 2. The amplifier of claim 1 , wherein adjacent coupled asymmetric SQUIDs are coupled through a larger Josephson energy junction. 3. The amplifier of claim 2 , wherein the larger Josephson energy junctions of adjacent coupled asymmetric SQUIDs form a serpentine path. 4. The amplifier of claim 1 , wherein each of the larger Josephson energy junctions has a Josephson energy in the range 10 to 20 Kelvin and a charging energy in the range 0.1 to 0.2 Kelvin. 5. The amplifier of claim 4 , wherein by adjusting the ratio of the Josephson energy of the large junction to that of the small junction, the inductance and its non-linearity can be tuned. 6. The amplifier of claim 1 , wherein the critical current of the smaller Josephson energy junctions is in the range 0.5 μA to 2 μA. 7. The amplifier of claim 6 , wherein the critical current of the larger Josephson energy junctions is in the range 2 μA to 8 μA. 8. The amplifier of claim 4 , wherein by adjusting a magnetic flux in situ tuning of an inductance of the amplifier and its non-linearity can be utilized to realize phase matching conditions in a degenerate four-wave mixing process. 9. The amplifier of claim 1 , wherein the plurality of coupled asymmetric SQUIDs is configured to allow for a mixing process to occur between the weak signal, generated idler and the pump signal traveling along the transmission line, resulting in a parametric gain of the weak signal. 10. The amplifier of claim 1 , further configured to amplify only in a forward direction. 11. The amplifier of claim 1 , further configured to amplify in a transmission mode. 12. The amplifier of claim 1 , further configured to provide an exponential gain of the weak signal as a function of device length. 13. The amplifier of claim 1 , further configured to have a bandwidth of about 1 GHz to about 6 GHz. 14. The amplifier of claim 1 , further configured to have a gain of 20 dB or greater. 15. The amplifier of claim 1 , further configured to have a saturation power of −95 dBm or greater. 16. An integrated circuit comprising the traveling wave parametric amplifier set forth in claim 1 and a device under test.