Absorbtion-based detection of spin impurities in solid-state spin systems

What is claimed is: 1. A system comprising: an optical source configured to generate light that can optically excite electronic spin states of electronic spin impurities in a solid state lattice, when applied to a sample containing the spin impurities and the solid state lattice; a microwave source configured to generate microwave pulses that can be applied to the sample during optical excitation by the light, at a frequency tuned to the electronic spin resonant frequency of the spin impurities; a detector configured to detect output optical radiation after the optical signal has passed through the sample, so that the absorption intensity of the optical radiation can be measured; and a processing system configured to calculate relative populations (ρ) of the electronic spin states from the measured absorption intensity (A) and use the relative populations to obtain information about a variable of interest, wherein the processing system is further configured to calculate the relative populations of the electronic spin states of electronic spin impurities using a mathematical model that relates the relative populations of the electronic spin states to a ratio of the absorption intensity of the optical signal when the microwave pulses are turned on (A on ) to the absorption intensity of the optical signal when the microwave pulses are turned off (A off ), by a formula given by: A on A off = ρ 11 on + ρ 22 on ρ 11 off + ρ 22 off ⁢ | equilibrium . 2. The system of claim 1 , wherein the sample comprises bulk diamond and wherein the electronic spin impurities comprise NV centers in the diamond. 3. The system of claim 1 , wherein the optical source is a laser that is tunable to a frequency of 532 nm.