Methods for separating, concentrating, and/or differentiating between cells from a cell sample

What is claimed is: 1. A method of differentiating cells of interest in a cell sample from other cells in the cell sample, the method comprising: attaching bubbles to cells of interest in the cell sample; after attaching the bubbles to the cells of interest, applying an acoustic radiation force to the cell sample so as to displace the cells of interest relative to the other cells; differentiating the cells of interest from the other cells based on displacement of the cells of interest, relative to the other cells, that is induced by the acoustic radiation force; separately storing the cells of interest by: delivering the cells of interest, with the bubbles attached, to a first reservoir; and delivering the other cells in the cell sample to a second reservoir, the second reservoir being different from the first reservoir; and rupturing the bubbles by applying overpressure or under pressure, or higher acoustic pressure to the cells of interest. 2. The method of claim 1 , further comprising delivering the cell sample to a flow channel of a flow cell and wherein the acoustic radiation force is applied to the cell sample by an acoustic source acoustically coupled to the flow cell as the cell sample flows through the flow channel. 3. The method of claim 2 , wherein the acoustic radiation force is oriented transverse to the flow channel of the flow cell. 4. The method of claim 2 , further comprising separating cells flowing along sides of the flow channel from cells flowing along a centerline of the flow channel into sub-channels, the cells flowing along the sides of the flow channel comprising the cells of interest with the bubbles. 5. The method of claim 2 , further comprising interrogating the cell sample with a light source after applying the acoustic radiation force to the cell sample. 6. The method of claim 5 , further comprising sorting the cells of interest into two or more subgroups based on the interrogation of the cell sample with the light source. 7. The method of claim 6 , wherein the cells of interest are further sorted by sensing light scattered by the cells of interest with the bubbles in response to the interrogation of the cell sample with the light source, the sensed scattered light producing a signal indicative of a vibrational effect experienced by the cells of interest in response to the acoustic radiation force. 8. The method of claim 6 , wherein the cells of interest are sorted by fluorescence activated cell sorting. 9. The method of claim 1 , wherein the bubbles are attached to the cells of interest are tagged with bubbles by using a streptavidin-biotin linkage strategy. 10. A method of differentiating cells of interest in a cell sample from other cells in the cell sample, the method comprising: attaching bubbles to -cells of interest in a cell sample; delivering the cell sample to a flow channel of a flow cell; after attaching the bubbles to the cells of interest, applying an acoustic radiation force to the cell sample by an acoustic source acoustically coupled to the flow cell as the cell sample flows through the flow channel so as to displace the cells of interest in the cell sample relative the other cells in the cell sample; differentiating the cells of interest in the cell sample from other cells in the cell sample by interrogating the cell sample with a light source after applying the acoustic radiation force to the cell sample; and separately storing the cells of interest by: delivering the cells of interest, with the bubbles attached, to a first reservoir; and delivering the other cells in the cell sample to a second reservoir, the second reservoir being different from the first reservoir.