Systems, devices, and methods for separating, concentrating, and/or differentiating between cells from a cell sample

What is claimed is: 1. A system for separating particles of interest from a sample, the system comprising: one or more acoustic transducers sources; a flow cell acoustically coupled with the acoustic transducer source, the flow cell having a flow channel therethrough for receiving and conducting a sample; wherein the acoustic transducer sources is positioned and configured to deliver a standing wave transverse to the flow channel, the standing wave having at least one pressure node and adjacent pressure antinode; and wherein a centerline of the flow channel is offset from positioned between the at least one pressure node and pressure antinode of the standing wave such that a pressure gradient extends transverse to the centerline of the flow channel when the acoustic transducer delivers the standing wave; wherein the standing wave delivered by the acoustic transducer includes only one pressure node or pressure antinode, and wherein the flow channel is offset from a centerline of the flow cell. 2. The system of claim 1 , wherein a downstream portion of the flow channel splits into two sub-channels for separating cells of interest from a remainder of the conducted sample. 3. The system of claim 1 , further comprising a light source configured to emit an interrogation light to the conducted sample after applying the standing wave to the conducted sample. 4. The system of claim 3 , further comprising a sensor for capturing light scattered by the conducted sample in response to the interrogation light thereby producing a signal indicative of a vibrational effect experienced by particles of the conducted sample in response to the acoustic wave; and further comprising a processor coupled to the sensor, the processor configured to analyze the signal to identify particles within the sample based on the vibration effect experienced by the particles in response to the acoustic wave. 5. The system of claim 3 , further comprising a sensor for capturing fluorescing light from particles of the conducted sample in response to the interrogation light thereby producing a signal indicative of an attached fluorophore; and further comprising a processor coupled to the sensor, the processor configured to separate particles based on the detection of attached fluorophores. 6. The system of claim 1 , wherein a second acoustic transducer is acoustically coupled with the flow cell at a downstream portion of the flow channel, wherein the second acoustic transducer is configured to deliver acoustic energy toward the downstream portion of the flow channel to rupture bubbles at the downstream portion. 7. The system of claim 1 , wherein the flow channel comprises an outlet port channel configured as a venturi tube, the venturi tube configured to rupture bubbles at the outlet port channel. 8. A system for separating particles of interest from a sample, the system comprising: one or more acoustic transducers sources; a flow cell acoustically coupled with the acoustic transducer source, the flow cell having a flow channel therethrough for receiving and conducting a sample; wherein the acoustic transducer sources is positioned and configured to deliver a standing wave transverse to the flow channel, the standing wave having at least one pressure node and adjacent pressure antinode; and wherein a centerline of the flow channel is offset from positioned between the at least one pressure node and pressure antinode of the standing wave such that a pressure gradient extends transverse to the centerline of the flow channel when the acoustic transducer delivers the standing wave; a position sensitive detector configured to detect the translation of particles of interest in response to the standing wave. 9. A system for separating cells of interest from a sample, the system comprising: an acoustic transducer source; a flow cell acoustically coupled with the acoustic transducer source, the flow cell having a flow channel therethrough for receiving a sample; wherein the acoustic transducer source is positioned and configured to deliver an acoustic wave transverse to the flow channel; and a position sensitive detector configured to selectively detect the cells of interest in response to translation of the cells of interest in a direction transverse to an axis of the flow channel by the acoustic wave. 10. The system of claim 9 , wherein the sample comprises a cell sample with the cells of interest and other cells, wherein the flow cell and acoustic detector are configured to separate the cells of interest from the other cells using bubbles selectively tagged to the cells of interest. 11. The system of claim 9 , wherein a second acoustic transducer is acoustically coupled with the flow cell at a downstream portion of the flow channel, wherein the second acoustic transducer is configured to deliver acoustic energy toward the downstream portion of the flow channel to rupture bubbles at the downstream portion. 12. The system of claim 9 , wherein the flow channel comprises an outlet port channel configured as a venturi tube, the venturi tube configured to rupture bubbles at the outlet port channel.