Detector assemblies for a wearable module of an optical measurement system and including spring-loaded light-receiving members

What is claimed is: 1. A wearable module for use in an optical measurement system, the wearable module comprising: a housing including a top surface; a light guide including a distal end portion adapted to protrude from the top surface of the housing; and a spring member configured to bias the distal end portion of the light guide away from the top surface of the housing, wherein the light guide is configured to receive, at the distal end portion, photons from a light pulse scattered by a target within a body of a user and guide the received photons toward a photodetector. 2. The wearable module of claim 1 , wherein the light guide is movable along an optical axis of the light guide. 3. The wearable module of claim 1 , wherein the light guide is configured to be pressed toward the top surface of the housing by the body of the user when the wearable module is worn by the user. 4. The wearable module of claim 1 , further comprising a first lens at a proximal end of the light guide and configured to collimate photons emitted from the proximal end of the light guide. 5. The wearable module of claim 4 , wherein the first lens is integrally formed with the light guide. 6. The wearable module of claim 4 , further comprising a second lens configured to receive the photons from the first lens and direct the photons to the photodetector. 7. The wearable module of claim 1 , further comprising a light guide block, wherein the light guide block includes a chamber and the light guide is disposed in the chamber. 8. The wearable module of claim 7 , wherein the spring member is disposed in the chamber. 9. The wearable module of claim 7 , wherein the light guide is movable within the chamber along a direction extending from a distal end of the chamber to a proximal end of the chamber. 10. The wearable module of claim 7 , wherein: the housing comprises an upper housing and a lower housing, and the upper housing is implemented by the light guide block. 11. The wearable module of claim 7 , further comprising: a first lens disposed in the chamber and configured to receive the photons from the light guide and collimate the photons; and a second lens disposed in the chamber and configured to receive the photons from the first lens and focus the photons on the photodetector. 12. The wearable module of claim 11 , further comprising a support assembly positioned over a distal end of the chamber, wherein the second lens is supported on the support assembly. 13. The wearable module of claim 12 , wherein the photodetector is supported on the support assembly in optical alignment with the second lens. 14. The wearable module of claim 11 , wherein the light guide is movable relative to the second lens. 15. The wearable module of claim 1 , wherein: the light guide comprises a flange portion, and the spring member presses against the flange portion to bias the distal end portion of the light guide away from the top surface of the housing. 16. The wearable module of claim 15 , wherein the flange portion is integrally formed with the light guide. 17. The wearable module of claim 1 , wherein the wearable module is included in a head-mountable component configured to be worn on a head of the user. 18. The wearable module of claim 1 , wherein the target comprises a brain of the user. 19. The wearable module of claim 1 , further comprising a light-emitting light guide configured to protrude from the top surface of the housing and emit, at a distal end portion of the light-emitting light guide, the light pulse prior to the light pulse being scattered by the target. 20. The wearable module of claim 19 , further comprising an additional spring member configured to bias the distal end portion of the light-emitting light guide away from the top surface of the housing. 21. The wearable module of claim 19 , wherein the light-emitting light guide is movable along an optical axis of the light-emitting light guide. 22. The wearable module of claim 19 , wherein the light-emitting light guide is configured to be pressed toward the top surface of the housing by the body of the user when the wearable module is worn by the user. 23. The wearable module of claim 1 , further comprising the photodetector, wherein the photodetector is housed within the housing. 24. The wearable module of claim 23 , wherein the light guide is movable relative to the photodetector. 25. The wearable module of claim 23 , wherein the photodetector comprises a time-resolved single-photon photodetector. 26. The wearable module of claim 25 , wherein the photodetector comprises a plurality of single-photon avalanche diode (SPAD) circuits. 27. The wearable module of claim 25 , further comprising at least one time-to-digital converter (TDC), wherein the at least one TDC is configured to measure a time difference between an occurrence of the light pulse and an occurrence of an output pulse generated by the photodetector and indicating that the photodetector has detected a photon. 28. The wearable module of claim 25 , further comprising a signal processing circuit configured to: determine a temporal distribution of the photons detected by the photodetector, and generate a histogram based on the temporal distribution of the photons. 29. The wearable module of claim 1 , further comprising: a first light source configured to emit a first light pulse in a first wavelength; a second light source configured to emit a second light pulse in a second wavelength that is different from the first wavelength; a light-emitting light guide configured to emit the first light pulse and the second light pulse toward the target; and an optical member configured to receive the first light pulse from the first light source and the second light pulse from the second light source and direct the first light pulse and the second light pulse to the light guide, wherein the light pulse comprises one or more of the first light pulse or the second light pulse. 30. The wearable module of claim 29 , wherein the housing houses the first light source, the second light source, and the optical member. 31. The wearable module of claim 29 , wherein the housing further houses at least a portion of the light-emitting light guide. 32. The wearable module of claim 29 , further comprising a controller configured to control one or more of the first light source or the second light source to output the light pulse. 33. The wearable module of claim 32 , wherein the controller is housed in the housing. 34. The wearable module of claim 29 , wherein the first light source and the second light source each comprises a laser diode. 35. The wearable module of claim 29 , wherein the optical member comprises a prism, a mirror, or another light guide. 36. The wearable module of claim 29 , wherein: the optical member is configured to direct the first light pulse and the second light pulse to a proximal end of the light-emitting light guide, and the light-emitting light guide is configured to emit the first light pulse and the second light pulse from a distal end of the light-emitting light guide toward the target. 37. The wearable module of claim 29 , wherein a distal end portion