Microfluidic mixing device

What is claimed is: 1. A microfluidic mixing device comprising: a mixing channel; a fluid inlet chamber to pass fluids into the mixing channel, the mixing channel having a unidirectional fluid flow therethrough; a pump actuator located symmetrically on a center axis of the mixing channel; an axis-asymmetric mixing actuator integrated within the mixing channel to cause fluid displacements that mix the fluids as they flow through the mixing channel, the axis-asymmetric mixing actuator including at least two resistors to produce steam bubbles when activated; an outlet chamber to receive the mixed fluids; and a controller to alternatingly activate the at least two resistors to generate fluid displacements with the steam bubbles to create a wiggling fluid path through the mixing channel, wherein the pump actuator causes a fluid flow through the mixing channel in a direction from the fluid inlet chamber to the outlet chamber. 2. A microfluidic mixing device as in claim 1 , wherein a width of the fluid inlet chamber is larger than a width of an entrance to the mixing channel. 3. A microfluidic mixing device as in claim 1 , wherein the axis-asymmetric mixing actuator comprises the at least two resistors located on a first side of the mixing channel and staggered along a length of the mixing channel. 4. A microfluidic mixing device as in claim 1 , wherein the at least two resistors include a first resistor on a first side of the mixing channel and a second resistor on an opposite side of the mixing channel and co-located along the length of the mixing channel with respect to the first resistor. 5. A microfluidic mixing device as in claim 3 , further comprising a resistor on an opposite side of the mixing channel and staggered along the length of the mixing channel with respect to the at least two resistors located on a first side of the mixing channel. 6. A microfluidic mixing device as in claim 1 , wherein the axis-asymmetric mixing actuator comprises the at least two resistors being on different sides of the mixing channel and co-located along the length of the mixing channel. 7. A microfluidic mixing device as in claim 1 , wherein the axis-asymmetric mixing actuator comprises the at least two resistors being on different sides of the mixing channel and staggered along the length of the mixing channel. 8. A microfluidic mixing system comprising: a microfluidic mixing device comprising a fluid mixing channel; a fluid pump to pump fluids through the mixing channel; axis-asymmetric mixing actuators integrated within the mixing channel to mix fluids as they flow through the mixing channel, at least one of the axis-asymmetric mixing actuators including at least two resistors to produce steam bubbles when activated; and a controller coupled to the axis asymmetric mixing actuators, the controller being to: alternatively activate the at least two resistors to generate fluid displacements with the steam bubbles to create a wiggling fluid path through the mixing channel. 9. A microfluidic mixing system as in claim 8 , wherein the fluid pump is selected from the group consisting of an external fluid pump and a pump actuator integrated within the mixing channel at a center axis of the mixing channel and toward one end of the mixing channel. 10. A microfluidic mixing system as in claim 8 , further comprising a controller to control a sequence and a timing of activations of the at least two resistors. 11. The microfluidic mixing device as in claim 4 , wherein the controller is to alternatingly activate the axis-asymmetric mixing actuator by activating the first resistor for a preset time duration followed by an activation of the second resistor for another preset time duration.