-
biology/ecology; Turfgrass science/Turf ecosystem modeling; Urban agriculture, green roofs, and native plants; and Viticulture. Required Job Qualifications Completed PhD or equivalent degree from
-
Stimulated Raman Spectroscopy (PARS) method. Research tasks will include design, development and optimization of the full PARS system including a Raman cell pumping scheme, a photoacoustic cavity, and an
-
; Biogeochemistry. Required Job Qualifications Completed PhD or equivalent degree from an accredited institution by start date of employment. Preferred Job Qualifications Essential Duties Application Details Special
-
the Department of Animal Sciences. Possible research focus areas include but are not limited to animal and equine sciences. Required Job Qualifications Completed PhD or equivalent degree from an accredited
-
by the proposed start date. Required Job Qualifications Applicants must hold a PhD degree in an appropriate discipline related to Electrical and Computer Engineering. Additional required qualifications
-
Qualifications PhD in science, engineering, math/statistics, or closely related field; Strong background in environmental science, combustion, air quality engineering, or atmospheric chemistry research; Track
-
digitalization. The ideal candidate would also: have strong expertise in quantitative and/or qualitative research methods, with the ability to translate the results of empirical analysis in novel and urgent areas
-
the Department of Animal Sciences. Possible research focus areas include but are not limited to animal and equine sciences. Required Job Qualifications Completed PhD or equivalent degree from an accredited
-
or animals, animal behavior, ecology, evolutionary biology and computational/theoretical biology. PhD graduates receive world-class training, participate in cutting-edge and often interdisciplinary research
-
Stimulated Raman Spectroscopy (PARS) method. Research tasks will include design, development and optimization of the full PARS system including a Raman cell pumping scheme, a photoacoustic cavity, and an