Electromagnetic actuator for a reciprocating compressor

What is claimed is: 1. A reciprocating compressor comprising: a housing comprising: an inner surface defining at least one compression chamber, a first aperture, and a second aperture; a first piston comprising at least one first piston compression face, the first piston being slidably disposed within the compression chamber; a first piston rod comprising a first proximate portion and a first distal portion, the first proximate portion being slidably received within the first aperture, the first piston rod being drivably connected to the first piston; a second piston comprising at least one second piston compression face opposed to the first piston compression face, the second piston being slidably disposed within the compression chamber; a second piston rod comprising a second proximate portion and a second distal portion, the second proximate portion being slidably received within the second aperture, the second piston rod being drivably connected to the second piston; a first actuator attached to the first distal portion of the first piston rod; and a second actuator attached to the second distal portion of the second piston rod, wherein the first and the second piston rods define a translation axis extending through the compression chamber, wherein the first and the second actuators are configured to drivably reciprocate the first and the second pistons within the compression chamber along the translation axis, wherein the first and the second actuators comprises a force generator and a force accumulator disposed between the force generator and the distal portion of the piston rod, and wherein the force accumulator comprises at least one capacitor having a first conductive material attached to one of the first and the second piston rods and a second conductive material fixed with respect to one of the first and the second piston rods, wherein the at least one capacitor has a variable capacitance. 2. The reciprocating compressor of claim 1 , wherein the force accumulator comprises a spring assembly comprising: a first end attached to one of the first and the second piston rods; a second end fixed with respect to one of the first and the second piston rods; and a plurality of springs, wherein a spring constant of the spring assembly is adjustable. 3. The reciprocating compressor of claim 2 , wherein at least one spring of the plurality of springs has a spring constant variable along its length. 4. The reciprocating compressor of claim 2 , wherein the plurality of springs have different lengths and are arranged in parallel so to have different effective strokes. 5. The reciprocating compressor of claim 2 , wherein the plurality of springs have different spring constants and are arranged in parallel so to be selectively effective. 6. The reciprocating compressor of claim 2 , wherein the one of the first and the second piston rods is configured to reciprocate at a frequency substantially matched to one of a resonance frequency at least one spring of the plurality of springs and a harmonic of the resonance frequency of the spring. 7. The reciprocating compressor of claim 1 , wherein at least one actuator of the first and the second actuators comprises a solenoid actuator comprising an armature and a holding plate, wherein the holding plate is attached to one of the first and the second piston rods, and wherein the armature is fixed with respect to the one of the first and the second piston rods. 8. The reciprocating compressor of claim 7 , wherein the solenoid actuator is configured to translate along the translation axis. 9. The reciprocating compressor of claim 1 , wherein the at least one actuator comprises an linear motor comprising a stator and a core, wherein the core is attached to one of the first and the second piston rods, and wherein the stator is fixed with respect to the one of the first and the second piston rods.