Optical system and assay chip for probing, detecting and analyzing molecules

What is claimed is: 1 . An instrument configured to interface with an assay chip, the instrument comprising: an optical housing having an opening; at least one pulsed excitation light source configured to emit pulses of excitation energy, wherein at least a portion of the pulses of excitation energy is directed towards the opening of the optical housing; and at least one alignment component configured to mechanically position the assay chip relative to the opening such that the assay chip receives at least a portion of the excitation energy exiting the opening when the assay chip interfaces with the instrument, wherein the at least one alignment component is spring-loaded. 2 . The instrument of claim 1 , wherein the at least one alignment component is configured to mechanically position the assay chip to at least partially overlap with the opening when the assay chip interfaces with the instrument. 3 . The instrument of claim 1 , further comprising at least one optical component configured to direct excitation energy emitted by the at least one pulsed excitation light source towards the assay chip when the assay chip interfaces with the instrument. 4 . The instrument of claim 1 , further comprising at least one optical component configured to reflect excitation energy emitted by the at least one pulsed excitation light source towards the opening and transmit emission energy from the assay chip. 5 . The instrument of claim 1 , wherein the at least one alignment component includes a plurality of alignment components positioned around the opening. 6 . The instrument of claim 1 , wherein the at least one alignment component is positioned on an outside surface of the optical housing. 7 . An instrument configured to interface with an assay chip, the instrument comprising: an optical housing having an opening; at least one pulsed excitation light source configured to emit pulses of excitation energy, wherein at least a portion of the pulses of excitation energy is directed towards the opening of the optical housing; and at least one alignment component configured to mechanically position the assay chip relative to the opening such that the assay chip that is housed in a hole of a frame positioned on the outside of the optical housing receives at least a portion of the excitation energy exiting the opening when the assay chip interfaces with the instrument, wherein the at least one alignment component includes at least one pneumatic component or at least one spring-loaded component. 8 . The instrument of claim 7 , wherein the at least one alignment component is positioned on an outside surface of the optical housing. 9 . The instrument of claim 7 , wherein the at least one alignment component includes a plurality of alignment components positioned around the opening. 10 . The instrument of claim 7 , wherein the at least one alignment component is configured to mechanically position the assay chip to at least partially overlap with the opening when the assay chip interfaces with the instrument. 11 . The instrument of claim 7 , wherein the at least one alignment component includes at least one magnetic component. 12 . An instrument configured to interface with an assay chip, the instrument comprising: an optical housing having an opening; at least one pulsed excitation light source configured to emit pulses of excitation energy, wherein at least a portion of the pulses of excitation energy is directed towards the opening of the optical housing; and a plurality of alignment components fixed to the optical housing around the opening and configured to mechanically position the assay chip relative to the opening such that the assay chip receives at least a portion of the excitation energy exiting the opening when the assay chip interfaces with the instrument; wherein the plurality of alignment components includes at least one pneumatic component. 13 . The instrument of claim 12 , wherein the plurality of alignment components includes at least one magnetic component. 14 . The instrument of claim 12 , wherein the plurality of alignment components includes at least one spring-loaded component. 15 . The instrument of claim 12 , wherein the plurality of alignment components is configured to mechanically position the assay chip to at least partially overlap with the opening when the assay chip interfaces with the instrument. 16 . The instrument of claim 12 , further comprising at least one optical component configured to direct excitation energy emitted by the at least one pulsed excitation light source towards the assay chip when the assay chip interfaces with the instrument. 17 . The instrument of claim 12 , further comprising at least one optical component configured to reflect excitation energy emitted by the at least one pulsed excitation light source towards the opening and transmit emission energy from the assay chip.