Cool Stars 14 - Submitted Abstract # 241 This version created on 05 October 2006 Gravity and Temperature Sensitive Features in the Near-IR Spectra of Brown Dwarfs Katelyn Allers, University of Hawaii Michael Liu, University of Hawaii Daniel Jaffe, University of Texas Gregory Doppmann, NOAO-Tucson Kevin Luhman, Penn State Determining accurate masses of young brown dwarfs, as found by placing them on an H-R diagram, has proven a difficult task. Not only are the evolutionary models untested in the low temperature/low gravity regime, but the derived temperatures (from either model fits or from the spectral types) of an object can vary by ~500 K depending on which method is used (see recent work by Luhman et al., Close et al., Allers et al., and Jayawardhana & Ivanov). Clearly, tighter constraints on the gravities and temperatures of young brown dwarfs are necessary to determine accurate masses. We present R~1200-2000 near-IR spectra of a sample of young brown dwarfs in nearby star-forming regions, with spectral types from M to early-L. Comparing spectra of young brown dwarfs, field dwarfs, and giant stars, we examine the gravity and temperature sensitivity of a variety of atomic and molecular features. We find an H-band H2O index capable of determining spectral type to within one sub-type, independent of gravity. Based on our H2O index, we have designed a custom near-IR filter, which in combination with broad-band J and H band filters, can be used to determine the spectral type of M and L type objects. We also critically examine the H2O absorption induced shape of the H and K bands and compare the gravity sensitivity of the continuum shape to the gravities determined from atomic (Na and K) lines. ----------------------------------