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  • Michel, A.P., S.D. Wankel, J. Kapit, Z. Sandwith, and P.R. Girguis, In situ Carbon Isotopic Exploration of an Active Submarine Volcano, Deep Sea Research II, 2017. (
  • Michel, A.P., Kapit, J., Blanchard, R., and Witinski, M. Open-Path Spectroscopic Methane Detection Using a Broadband Monolithic Distributed Feedback Quantum Cascade Laser (DFB-QCL) Array, Applied Optics, 56, E23-E29, (


  • Michel A.P., and Sonnichsen, F. Laser induced breakdown spectroscopy for heavy metal detection in a sand matrix. Spectrochimica Acta Part B: Atomic Spectroscopy. 125:177-83. (
  • Michel A.P., Miller, D.J., Sun, K., Tao, L., Stanton, L., and Zondlo, M.A. Long-Path Quantum Cascade Laser–Based Sensor for Methane Measurements. Journal of Atmospheric and Oceanic Technology. 33(11):2373-84. (
  • Michel A.P., and Kapit, J. Deep Ultraviolet Light Emitting Diode (LED)-Based Sensing of Sulfur Dioxide. Applied Spectroscopy, 0003702816665126. ( 10.1177/0003702816665126).


  • Wang, W.E., Michel, A.P.M., Wang, L., Tsai, T., Baeck, M.L., Smith, J.A., and Wysocki, G. A quantum cascade laser-based water vapor isotope analyzer for environmental monitoring. Review of Scientific Instruments, 85(9), 093103. (


  • Liakat, S., Bors, K.A., Huang, T.-Y., Michel, A.P.M., Zanghi, E., and Gmachl, C.F. In vitro measurements of physiological glucose concentrations in biological fluids using mid-infrared light, Biomed. Opt. Express, 4, 1083-1090. (


  • Liakat, S., Michel, A.P.M., Bors, K., and Gmachl, C.F., Mid-infrared (l=8.4-9.9 mm) light scattering from porcine tissue, Appl. Phys. Lett. 101, 093705. (


  • Michel, A.P.M., Liu, P.Q., Yeung, J.K., Corrigan, P., Baeck, M.L., Wang, Z., Day, T. Moshary, F., Gmachl, C.F., and Smith, J.A. Quantum cascade laser open-path system for remote sensing of trace gases in Beijing, China, Optical Engineering, 49, 111125. (
  • Michel, A.P.M., A review of single-shot laser-induced breakdown spectroscopy, Spectrochimica Acta Part B, 65B, 185-191. (


  • Michel, A.P.M., and Chave, A.D., Single pulse laser-induced breakdown spectroscopy of bulk aqueous solutions at oceanic pressures: interrelationship of gate delay and pulse energy, Applied Optics, 47, 122-130. (
  • Michel, A.P.M., and Chave, A.D., Double pulse laser-induced breakdown spectroscopy of bulk aqueous solutions at oceanic pressures: interrelationship of gate delay, pulse energies, interpulse delay, and pressure, Applied Optics, 47, 131-143. (


  • Michel, A.P.M., and Chave, A.D., Analysis of laser-induced breakdown spectroscopy (LIBS) spectra: The case for extreme value statistics, Spectrochimica Acta Part B, 62, 1370-1378. (
  • Michel, A.P.M., Lawrence-Snyder, M., Angel, S.M., and Chave, A.D., Laser-induced Breakdown Spectroscopy of Bulk Aqueous Solutions at Oceanic Pressures: Evaluation of Key Measurement Parameters, Applied Optics, 46, 2507-2515. (
  • Lawrence-Snyder, M., Scaffidi, J., Angel, S.M., Michel, A.P.M., and Chave, A.D., Sequential-Pulse Laser-Induced Breakdown Spectroscopy of High-Pressure Bulk Aqueous Solutions, Applied Spectroscopy, 61, 171-176.(



  • Weiss, D., Boyle, E.A., Wu, J., Chavagnac, V., Michel, A., and Reuer, M.K., Spatial and temporal evolution of lead isotope ratios in the North Atlantic Ocean between 1981 and 1989, J. Geophys. Res., 108(C10), 3306. (