Gradient systems and methods

What is claimed is: 1. A gradient pump head that mixes at least two fluids at or less than a noise level threshold, comprising: an inlet that receives at least two fluids; a pump head body having a single mixing chamber therein, the mixing chamber having a first delay volume configured to mix the at least two fluids, wherein a noise level threshold is established that corresponds to the first delay volume; an outlet formed in the pump head body; and a monolithic pump head extension having a mixing chamber extension formed therein, the mixing chamber extension in communication with the single mixing chamber and the inlet, the mixing chamber and the mixing chamber extension extending along a common longitudinal axis that extends from a region of the mixing chamber extension in communication with the inlet to a region of the mixing chamber in communication with the outlet of the pump head body, the mixing chamber extension increasing the first delay volume of the mixing chamber by a second delay volume to a third delay volume, wherein the at least two fluids are mixed in the third delay volume, and wherein the mixed fluid exhibits a compositional noise level that is less than the noise level threshold for the first delay volume, the monolithic pump head extension having a region at an axis perpendicular to and intersecting the common longitudinal axis, the mixing chamber extension having an outermost end on the common longitudinal axis, and that terminates at the region of the monolithic pump head extension at the axis perpendicular to and intersecting the common longitudinal axis, wherein the inlet is positioned in the pump head extension and extends along an inlet longitudinal axis perpendicular to and intersecting the common longitudinal axis, wherein the outlet extends along an outlet longitudinal axis parallel to the inlet longitudinal axis, wherein the inlet longitudinal axis extending through the pump head extension and the outlet longitudinal axis extending through the pump head body are separated by a length of the mixing chamber and the mixing chamber extension extending along the common longitudinal axis, and wherein the mixing chamber and the mixing chamber extension have a uniform circumference along the length of the mixing chamber and the mixing chamber extension extending along the common longitudinal axis. 2. The gradient pump head of claim 1 , wherein the pump head body is removably coupled to the pump head extension. 3. The gradient pump head of claim 2 , wherein the pump head further comprises a coupler that provides a fluid-tight seal between the mixing chamber and the mixing chamber extension. 4. The gradient pump head of claim 1 , wherein the pump head extension and pump head body are formed from a common stock. 5. The gradient pump head of claim 1 , wherein a piston having a plunger is positioned in the mixing chamber and constructed and arranged to move along the common longitudinal axis, and wherein the piston has an adjustable stroke length that changes a volume of the mixing chamber that determines the third delay volume according to the location of the piston plunger in the mixing chamber. 6. The gradient pump head of claim 1 , wherein the gradient pump head is at least one of a primary pump head and an accumulator pump head. 7. The gradient pump head of claim 6 , wherein the compositional noise level is a function of at least one of a delay volume of the accumulator pump head and a delay volume of the primary pump head. 8. A gradient system that mixes at least two fluids comprising: a pumping actuator; and a pump head coupled to the pumping actuator, the pump head comprising: a pump head body; a single mixing chamber in the pump head body, the mixing chamber having a first volume; a monolithic pump head extension extending from the pump head body; and a mixing chamber extension in the pump head extension in fluid communication with the single mixing chamber, the mixing chamber extension increasing the first volume of the mixing chamber by a second volume to a third volume, wherein: at least two fluids are mixed in the third volume; the mixed fluid exhibits a compositional noise level that is less than a noise level threshold of the first volume of the mixing chamber; the pump head body and the pump head extension extending along a common longitudinal axis; and the pump head extension having a region that extends along an axis perpendicular to and intersecting the common longitudinal axis, the mixing chamber extension having an outermost end on the common longitudinal axis, and that terminates at the region of the pump head extension extending along the axis perpendicular to and intersecting the common longitudinal axis, the common longitudinal axis extending from a region of the mixing chamber extension in communication with an inlet to a region of the mixing chamber in communication with an outlet formed in the pump head body, wherein the inlet is positioned in the pump head extension and extends along an inlet longitudinal axis perpendicular to and intersecting the common longitudinal axis, wherein the outlet extends along an outlet longitudinal axis parallel to the inlet longitudinal axis, wherein the inlet longitudinal axis and the outlet longitudinal axis are separated by a length of the mixing chamber and the mixing chamber extension extending along the common longitudinal axis, and wherein the mixing chamber and the mixing chamber extension have a uniform circumference along the length of the mixing chamber and the mixing chamber extension extending along the common longitudinal axis. 9. The gradient system of claim 8 , wherein the pump head body is removably coupled to the pump head extension. 10. The gradient system of claim 9 , wherein the pump head further comprises a coupler that provides a fluid-tight seal between the mixing chamber and the mixing chamber extension. 11. The gradient system of claim 8 , wherein the pump head extension and pump head body are formed from a common stock. 12. The gradient system of claim 8 , wherein a piston having a plunger is positioned in the mixing chamber and constructed and arranged to move along the common longitudinal axis, and wherein the piston has an adjustable stroke length that changes a volume of the mixing chamber that determines the third volume according to the location of the piston plunger in the mixing chamber. 13. The gradient system of claim 8 , wherein the pump head is at least one of a primary pump head and an accumulator pump head. 14. The gradient system of claim 13 , wherein the compositional noise level is a function of at least one of a delay volume of the accumulator pump head and a delay volume of the primary pump head. 15. A gradient system that mixes at least two fluids comprising: a pumping actuator; a pump head coupled to the pumping actuator, the pump head comprising: a monolithic pump head body; and a single mixing chamber in the pump head body extending in a longitudinal direction from a region of the mixing chamber in communication with an inlet formed in a pump head extension that extends from the pump head body to a mixing chamber extension that extends a region of the mixing chamber and is in communication with an outlet formed in the pump head body, the gradient system further comprising: a piston controlled by the pumping actuator, the piston having a plunger and extending through at least a portion of the mixing chamber, the plunger constructed and arranged to move along the common longitudinal axis, and wherein the mixing chamber and the mixing chamber extension have a uniform circumference along the leng