# "A Modern Mean Dwarf Stellar Color and Effective Temperature Sequence"
# http://www.pas.rochester.edu/~emamajek/EEM_dwarf_UBVIJHK_colors_Teff.txt
# Eric Mamajek
# Version 2022.04.16
#
# Much of the original content of this table was incorporated into
# Table 5 of Pecaut & Mamajek (2013, ApJS, 208, 9;
# http://adsabs.harvard.edu/abs/2013ApJS..208....9P), so that
# reference should be cited until an updated version of the table is
# published. Parts of this table for A/F/G stars also appeared in
# Table 3 of Pecaut, Mamajek, & Bubar (2012, ApJ 756, 154). For
# example, Table 5 of Pecaut & Mamajek did not include the absolute
# magnitude and luminosity estimates, nor the properties of dwarfs of
# types L, T, Y, or O3-O8.
# The author's notes on standard stars and mean parameters for stars
# for each dwarf spectral type can be found in the directory at:
# http://www.pas.rochester.edu/~emamajek/spt/. See further notes and
# caveats after the table. Colors are based on Johnson UBV, Tycho
# BtVt, Cousins RcIc, Gaia DR2 G/Bp/Rp, Sloan izY, 2MASS JHKs,
# MKO JK (for Y dwarfs), WISE W1/W2/W3/W4 photometry.
# G-V color is Gaia DR2 G - Johnson V.
#
#SpT Teff logT BCv logL Mbol R_Rsun Mv B-V Bt-Vt G-V Bp-Rp G-Rp M_G b-y U-B V-Rc V-Ic V-Ks J-H H-Ks M_J M_Ks Ks-W1 W1-W2 W1-W3 W1-W4 g-r i-z z-Y Msun #SpT
O3V 44900 4.652 -4.01 5.82 -9.81 13.43 -5.80 -0.330 ... ... ... ... ... ..... -1.175 ... ..... ..... ..... ..... .... .... ... ... ... ... ... ... ... 59 O3V
O4V 42900 4.632 -3.89 5.65 -9.39 12.13 -5.50 -0.326 ... ... ... ... ... ..... -1.160 ... ..... ..... ..... ..... .... .... ... ... ... ... ... ... ... 48 O4V
O5V 41400 4.617 -3.76 5.54 -9.11 11.45 -5.35 -0.323 ... ... ... ... ... -0.133 -1.150 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 43 O5V
O5.5V 40500 4.607 -3.67 5.44 -8.87 10.71 -5.20 -0.322 ... ... ... ... ... -0.133 -1.145 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 38 O5.5V
O6V 39500 4.597 -3.57 5.36 -8.67 10.27 -5.10 -0.321 ... ... ... ... ... -0.132 -1.140 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 35 O6V
O6.5V 38300 4.583 -3.49 5.27 -8.44 9.82 -4.95 -0.319 ... ... ... ... ... -0.131 -1.135 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 31 O6.5V
O7V 37100 4.569 -3.41 5.18 -8.21 9.42 -4.80 -0.318 ... ... ... ... ... -0.130 -1.130 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 28 O7V
O7.5V 36100 4.558 -3.33 5.09 -7.98 8.95 -4.65 -0.317 ... ... ... ... ... -0.130 -1.125 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 26 O7.5V
O8V 35100 4.545 -3.24 4.99 -7.74 8.47 -4.50 -0.315 ... ... ... ... ... -0.129 -1.120 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 23.6 O8V
O8.5V 34300 4.535 -3.18 4.91 -7.53 8.06 -4.35 -0.314 ... ... ... ... ... -0.128 -1.115 ... ..... ..... ..... ..... .... .... ... ... ... ... -0.620 ... ... 21.9 O8.5V
O9V 33300 4.522 -3.11 4.82 -7.31 7.72 -4.20 -0.312 ... ... ... ... ... -0.127 -1.110 ... -0.369 -1.000 -0.164 -0.071 -3.44 -3.20 ... ... ... ... -0.620 ... ... 20.2 O9V
O9.5V 31900 4.504 -3.01 4.72 -7.06 7.50 -4.05 -0.307 ... ... ... ... ... -0.125 -1.090 ... -0.361 -0.977 -0.161 -0.069 -3.30 -3.073 ... ... ... ... -0.605 ... ... 18.7 O9.5V
B0V 31400 4.497 -2.99 4.65 -6.89 7.16 -3.90 -0.301 ... ... ... ... ... -0.122 -1.070 ... -0.355 -0.958 -0.159 -0.067 -3.17 -2.942 0.016 ... ... ... -0.590 ... ... 17.7 B0V
B0.5V 29000 4.462 -2.83 4.43 -6.33 6.48 -3.50 -0.289 ... ... ... ... ... -0.120 -1.030 ... -0.338 -0.913 -0.153 -0.063 -2.80 -2.587 0.017 ... ... ... -0.540 ... ... 14.8 B0.5V
B1V 26000 4.415 -2.58 4.13 -5.58 5.71 -3.00 -0.278 ... ... ... ... ... -0.113 -0.995 -0.115 -0.325 -0.874 -0.148 -0.059 -2.33 -2.126 0.018 ... ... ... -0.490 ... ... 11.8 B1V
B1.5V 24500 4.389 -2.44 3.91 -5.04 5.02 -2.60 -0.252 -0.274 -0.021 ... ... ... -0.103 -0.910 -0.114 -0.281 -0.752 -0.132 -0.047 -2.03 -1.848 0.021 ... ... ... -0.483 ... ... 9.9 B1.5V
B2V 20600 4.314 -2.03 3.43 -3.83 4.06 -1.80 -0.215 -0.219 -0.008 ... ... ... -0.094 -0.790 -0.094 -0.230 -0.602 -0.113 -0.032 -1.34 -1.198 0.023 ... ... ... -0.475 ... ... 7.3 B2V
B2.5V 18500 4.267 -1.77 3.20 -3.27 3.89 -1.50 -0.198 -0.206 -0.003 ... ... ... -0.087 -0.732 -0.087 -0.210 -0.544 -0.105 -0.026 -1.09 -0.956 0.025 ... ... ... -0.468 ... ... 6.1 B2.5V
B3V 17000 4.230 -1.54 2.99 -2.74 3.61 -1.20 -0.178 -0.184 0.001 ... ... -1.19 -0.083 -0.673 -0.080 -0.192 -0.492 -0.098 -0.021 -0.83 -0.708 0.026 ... ... ... -0.460 ... ... 5.4 B3V
B4V 16400 4.215 -1.49 2.89 -2.49 3.46 -1.00 -0.165 -0.170 0.004 ... ... -0.99 -0.078 -0.619 -0.074 -0.176 -0.447 -0.092 -0.016 -0.66 -0.553 0.028 ... ... ... -0.437 ... ... 5.1 B4V
B5V 15700 4.196 -1.34 2.77 -2.19 3.36 -0.85 -0.156 -0.160 0.007 ... ... -0.84 -0.072 -0.581 -0.070 -0.165 -0.380 -0.084 -0.010 -0.54 -0.376 0.029 -0.045 -0.117 -0.070 -0.413 ... ... 4.7 B5V
B6V 14500 4.161 -1.13 2.57 -1.68 3.27 -0.55 -0.140 -0.142 0.010 ... ... -0.54 -0.066 -0.504 -0.062 -0.145 -0.358 -0.081 -0.007 -0.28 -0.192 0.030 -0.045 -0.117 -0.070 -0.390 ... ... 4.3 B6V
B7V 14000 4.146 -1.05 2.48 -1.45 2.94 -0.40 -0.128 -0.129 0.012 ... ... -0.39 -0.062 -0.459 -0.058 -0.133 -0.325 -0.077 -0.004 -0.16 -0.075 0.031 -0.045 -0.117 -0.070 -0.360 ... ... 3.92 B7V
B8V 12300 4.090 -0.73 2.19 -0.73 2.86 0.00 -0.109 -0.107 0.016 ... ... -0.01 -0.045 -0.364 -0.048 -0.108 -0.254 -0.067 0.003 0.19 0.254 0.033 -0.046 -0.116 -0.067 -0.330 ... ... 3.38 B8V
B9V 10700 4.029 -0.42 1.86 0.08 2.49 0.50 -0.070 -0.063 0.018 -0.120 -0.036 0.515 -0.029 -0.200 -0.028 -0.061 -0.121 -0.050 0.016 0.59 0.621 0.038 -0.063 -0.104 -0.054 -0.280 ... ... 2.75 B9V
B9.5V 10400 4.017 -0.36 1.80 0.24 2.45 0.60 -0.050 -0.040 0.017 -0.087 -0.016 0.615 -0.021 -0.130 -0.017 -0.035 -0.048 -0.044 0.021 0.63 0.648 0.040 -0.044 -0.091 -0.043 -0.265 ... ... 2.68 B9.5V
A0V 9700 3.987 -0.21 1.58 0.78 2.193 0.99 0.000 0.013 0.015 -0.037 -0.020 1.00 0.000 -0.005 0.001 0.004 0.041 -0.032 0.028 0.95 0.949 0.042 -0.041 -0.074 -0.022 -0.250 ... ... 2.18 A0V
A1V 9300 3.968 -0.14 1.49 1.02 2.136 1.16 0.035 0.056 0.01 0.005 0.032 1.16 0.017 0.033 0.019 0.044 0.090 -0.025 0.030 1.08 1.07 0.043 -0.036 -0.068 -0.023 -0.210 ... ... 2.05 A1V
A2V 8800 3.944 -0.07 1.38 1.28 2.117 1.35 0.070 0.091 0.00 0.068 0.050 1.345 0.038 0.063 0.042 0.091 0.178 -0.012 0.034 1.19 1.172 0.044 -0.034 -0.067 -0.029 -0.170 ... ... 1.98 A2V
A3V 8600 3.934 -0.04 1.23 1.66 1.861 1.70 0.100 0.109 -0.005 0.110 0.092 1.69 0.055 0.077 0.050 0.108 0.253 0.003 0.035 1.49 1.447 0.045 -0.033 -0.066 -0.029 -0.140 ... ... 1.86 A3V
A4V 8250 3.917 -0.02 1.13 1.92 1.794 1.94 0.140 0.166 -0.01 0.166 0.113 1.92 0.071 0.097 0.078 0.164 0.353 0.022 0.037 1.65 1.587 0.046 -0.031 -0.059 -0.021 -0.090 ... ... 1.93 A4V
A5V 8100 3.908 0.00 1.09 2.01 1.785 2.01 0.160 0.185 -0.015 0.194 0.130 1.98 0.090 0.100 0.089 0.186 0.403 0.031 0.038 1.68 1.607 0.046 -0.030 -0.058 -0.021 -0.070 ... ... 1.88 A5V
A6V 7910 3.898 0.005 1.05 2.13 1.775 2.12 0.185 0.194 -0.02 0.222 0.152 2.09 0.099 0.098 0.094 0.197 0.465 0.043 0.039 1.74 1.655 0.046 -0.030 -0.057 -0.018 -0.050 ... ... 1.83 A6V
A7V 7760 3.890 0.01 1.00 2.24 1.750 2.23 0.210 0.233 -0.03 0.263 0.173 2.19 0.107 0.091 0.117 0.242 0.528 0.055 0.040 1.80 1.702 0.047 -0.030 -0.056 -0.017 -0.020 ... ... 1.77 A7V
A8V 7590 3.880 0.02 0.96 2.34 1.747 2.32 0.250 0.274 -0.04 0.320 0.204 2.27 0.132 0.082 0.140 0.288 0.601 0.070 0.042 1.81 1.694 0.048 -0.028 -0.055 -0.009 0.030 ... ... 1.81 A8V
A9V 7400 3.869 0.02 0.92 2.45 1.747 2.43 0.270 0.279 -0.05 0.327 0.207 2.37 0.145 0.080 0.143 0.294 0.674 0.086 0.044 1.89 1.756 0.048 -0.028 -0.055 -0.007 0.060 ... ... 1.75 A9V
F0V 7220 3.859 0.01 0.86 2.58 1.728 2.57 0.295 0.317 -0.06 0.377 0.230 2.51 0.158 0.053 0.166 0.339 0.734 0.096 0.045 1.98 1.836 0.049 -0.026 -0.050 0.003 0.100 ... ... 1.61 F0V
F1V 7020 3.846 0.005 0.79 2.77 1.679 2.76 0.330 0.350 -0.07 0.434 0.252 2.69 0.204 0.021 0.190 0.385 0.819 0.117 0.047 2.11 1.941 0.050 -0.026 -0.047 0.009 0.140 ... ... 1.50 F1V
F2V 6820 3.834 -0.005 0.71 2.97 1.622 2.97 0.370 0.390 -0.08 0.490 0.279 2.89 0.250 -0.008 0.213 0.432 0.925 0.140 0.050 2.24 2.045 0.051 -0.027 -0.046 0.011 0.190 ... ... 1.46 F2V
F3V 6750 3.829 -0.01 0.67 3.07 1.578 3.08 0.390 0.405 -0.09 0.518 0.293 2.99 0.263 -0.016 0.222 0.449 0.964 0.148 0.051 2.32 2.116 0.051 -0.028 -0.046 0.008 0.210 ... ... 1.44 F3V
F4V 6670 3.824 -0.015 0.62 3.19 1.533 3.20 0.410 0.428 -0.10 0.546 0.307 3.10 0.277 -0.026 0.236 0.476 1.012 0.159 0.052 2.40 2.188 0.052 -0.029 -0.046 0.000 0.240 ... ... 1.38 F4V
F5V 6550 3.816 -0.02 0.56 3.35 1.473 3.37 0.440 0.455 -0.11 0.587 0.329 3.26 0.290 -0.029 0.252 0.506 1.079 0.173 0.054 2.52 2.291 0.052 -0.030 -0.045 -0.004 0.280 ... ... 1.33 F5V
F6V 6350 3.803 -0.03 0.43 3.66 1.359 3.69 0.486 0.504 -0.13 0.640 0.356 3.56 0.317 -0.021 0.276 0.553 1.190 0.199 0.057 2.76 2.50 0.054 -0.033 -0.045 -0.012 0.290 ... ... 1.25 F6V
F7V 6280 3.798 -0.035 0.39 3.77 1.324 3.80 0.500 0.534 -0.14 0.670 0.372 3.66 0.332 -0.012 0.290 0.579 1.221 0.213 0.060 2.85 2.579 0.055 -0.036 -0.045 -0.013 0.320 ... ... 1.21 F7V
F8V 6180 3.791 -0.04 0.29 4.01 1.221 4.05 0.530 0.558 -0.15 0.694 0.385 3.90 0.350 0.001 0.300 0.599 1.290 0.225 0.061 3.05 2.76 0.056 -0.039 -0.044 -0.016 0.360 ... ... 1.18 F8V
F9V 6050 3.782 -0.05 0.22 4.20 1.167 4.25 0.560 0.587 -0.145 0.719 0.399 4.105 0.378 0.014 0.312 0.620 1.335 0.236 0.063 3.21 2.915 0.057 -0.041 -0.044 -0.014 0.380 ... ... 1.13 F9V
F9.5V 5990 3.777 -0.06 0.18 4.29 1.142 4.35 0.580 0.615 -0.155 0.767 0.431 4.195 ... 0.033 0.323 0.640 1.403 0.249 0.065 3.26 2.947 0.057 -0.042 -0.043 -0.012 0.390 ... ... 1.08 F9.5V
G0V 5930 3.773 -0.065 0.13 4.42 1.100 4.48 0.595 0.650 -0.155 0.784 0.439 4.325 ... 0.057 0.341 0.673 1.437 0.262 0.067 3.37 3.043 0.058 -0.043 -0.043 -0.010 0.420 ... ... 1.06 G0V
G1V 5860 3.768 -0.073 0.08 4.55 1.060 4.62 0.622 0.661 -0.158 0.803 0.448 4.462 ... 0.067 0.340 0.672 1.500 0.279 0.070 3.47 3.120 0.060 -0.044 -0.042 -0.010 0.450 ... ... 1.03 G1V
G2V 5770 3.761 -0.085 0.01 4.72 1.012 4.80 0.650 0.724 -0.165 0.823 0.459 4.635 ... 0.133 0.363 0.713 1.564 0.293 0.073 3.60 3.236 0.061 -0.050 -0.040 -0.016 0.476 ... ... 1.00 G2V
G3V 5720 3.757 -0.095 -0.01 4.78 1.002 4.87 0.660 0.739 -0.167 0.832 0.464 4.703 ... 0.152 0.368 0.722 1.588 0.299 0.074 3.66 3.282 0.061 -0.050 -0.040 -0.014 0.480 ... ... 0.99 G3V
G4V 5680 3.754 -0.10 -0.04 4.83 0.991 4.93 0.670 0.757 -0.173 0.841 0.468 4.757 ... 0.175 0.374 0.733 1.611 0.304 0.075 3.70 3.319 0.062 -0.052 -0.041 -0.014 0.490 ... ... 0.985 G4V
G5V 5660 3.753 -0.105 -0.05 4.88 0.977 4.98 0.680 0.764 -0.179 0.850 0.473 4.801 ... 0.185 0.377 0.738 1.635 0.310 0.076 3.73 3.345 0.062 -0.052 -0.041 -0.014 0.500 ... ... 0.98 G5V
G6V 5600 3.748 -0.115 -0.10 4.99 0.949 5.10 0.700 0.796 -0.186 0.869 0.483 4.914 ... 0.227 0.388 0.758 1.691 0.324 0.079 3.81 3.409 0.063 -0.053 -0.040 -0.012 0.520 ... ... 0.97 G6V
G7V 5550 3.744 -0.125 -0.13 5.08 0.927 5.20 0.710 0.809 -0.194 0.880 0.489 5.006 ... 0.243 0.393 0.766 1.705 0.327 0.080 3.90 3.495 0.064 -0.054 -0.040 -0.013 0.540 ... ... 0.95 G7V
G8V 5480 3.739 -0.14 -0.17 5.16 0.914 5.30 0.730 0.842 -0.202 0.900 0.499 5.098 ... 0.284 0.404 0.786 1.768 0.342 0.082 3.96 3.532 0.065 -0.057 -0.039 -0.018 0.570 ... ... 0.94 G8V
G9V 5380 3.731 -0.16 -0.26 5.39 0.853 5.55 0.775 0.894 -0.210 0.950 0.524 5.34 ... 0.358 0.423 0.820 1.857 0.364 0.087 4.14 3.693 0.067 -0.060 -0.038 -0.018 0.600 ... ... 0.90 G9V
K0V 5270 3.723 -0.195 -0.34 5.59 0.813 5.78 0.816 0.944 -0.227 0.983 0.56 5.553 ... 0.436 0.443 0.853 1.953 0.387 0.091 4.31 3.827 0.070 -0.063 -0.037 -0.015 0.620 ... ... 0.88 K0V
K1V 5170 3.713 -0.23 -0.39 5.72 0.797 5.95 0.857 0.976 -0.25 1.01 0.56 5.65 ... 0.491 0.457 0.879 2.06 0.404 0.094 4.39 3.889 0.071 -0.064 -0.038 -0.013 0.690 ... ... 0.86 K1V
K2V 5100 3.708 -0.26 -0.43 5.81 0.783 6.07 0.884 1.035 -0.27 1.10 0.62 5.83 ... 0.581 0.482 0.920 2.13 0.427 0.098 4.46 3.938 0.073 -0.068 -0.037 -0.009 0.740 ... ... 0.82 K2V
K3V 4830 3.684 -0.375 -0.55 6.13 0.755 6.50 0.990 1.150 -0.32 1.21 0.66 6.20 ... 0.776 0.537 1.013 2.40 0.487 0.109 4.70 4.100 0.079 -0.071 -0.031 -0.008 0.850 ... ... 0.78 K3V
K4V 4600 3.663 -0.52 -0.69 6.46 0.713 6.98 1.090 1.292 -0.42 1.34 0.70 6.53 ... 0.986 0.635 1.182 2.70 0.539 0.123 4.91 4.247 0.087 -0.072 -0.030 0.009 0.990 ... ... 0.73 K4V
K5V 4440 3.647 -0.63 -0.76 6.65 0.701 7.28 1.150 1.373 -0.44 1.43 0.74 6.83 ... 1.081 0.685 1.272 2.88 0.568 0.132 5.10 4.397 0.092 -0.073 -0.029 0.019 1.040 ... ... 0.70 K5V
K6V 4300 3.633 -0.75 -0.86 6.89 0.669 7.64 1.240 1.439 -0.51 1.53 0.79 7.02 ... 1.184 0.759 1.420 3.08 0.601 0.148 5.31 4.56 0.101 ... ... ... 1.140 ... ... 0.69 K6V
K7V 4100 3.613 -0.93 -1.00 7.23 0.630 8.16 1.340 1.506 -0.58 1.70 0.86 7.57 ... 1.222 0.802 1.519 3.35 0.619 0.164 5.59 4.81 0.110 ... ... ... 1.260 ... ... 0.64 K7V
K8V 3990 3.601 -1.03 -1.06 7.40 0.615 8.43 1.363 1.562 -0.625 1.73 0.88 7.74 ... 1.216 0.843 1.632 3.48 0.626 0.171 5.75 4.95 0.115 ... ... ... 1.290 ... ... 0.62 K8V
K9V 3930 3.594 -1.07 -1.10 7.49 0.608 8.56 1.400 1.593 -0.66 1.79 0.90 8.03 ... 1.210 0.866 1.699 3.55 0.631 0.180 5.82 5.01 0.117 ... ... ... 1.320 ... ... 0.59 K9V
M0V 3850 3.585 -1.15 -1.16 7.65 0.588 8.80 1.420 1.623 -0.70 1.84 0.92 8.16 ... 1.204 0.889 1.766 3.65 0.627 0.190 5.97 5.15 0.120 ... ... ... ... 0.33 ... 0.57 M0V
M0.5V 3770 3.576 -1.29 -1.27 7.91 0.544 9.20 1.445 ... -0.76 1.97 0.97 8.44 ... 1.184 0.924 1.886 3.84 0.620 0.208 6.19 5.36 0.125 ... ... ... ... 0.37 ... 0.54 M0.5V
M1V 3660 3.563 -1.42 -1.39 8.22 0.501 9.64 1.485 ... -0.82 2.09 1.00 8.82 ... 1.172 0.956 2.005 4.00 0.614 0.222 6.48 5.64 0.130 ... ... ... ... 0.41 ... 0.50 M1V
M1.5V 3620 3.559 -1.50 -1.44 8.35 0.482 9.85 1.495 ... -0.87 2.13 1.02 8.98 ... 1.170 0.978 2.089 4.10 0.608 0.227 6.59 5.75 0.135 ... ... ... ... 0.47 ... 0.47 M1.5V
M2V 3560 3.551 -1.62 -1.54 8.59 0.446 10.21 1.505 ... -0.925 2.23 1.06 9.29 ... 1.170 1.001 2.173 4.23 0.600 0.234 6.81 5.98 0.140 ... ... ... ... 0.53 ... 0.44 M2V
M2.5V 3470 3.540 -1.78 -1.64 8.82 0.421 10.61 1.522 ... -1.02 2.39 1.10 9.67 ... 1.175 1.041 2.306 4.43 0.589 0.244 7.01 6.18 0.145 ... ... ... ... 0.57 ... 0.40 M2.5V
M3V 3430 3.535 -1.93 -1.79 9.21 0.361 11.15 1.53 ... -1.10 2.50 1.13 10.05 ... 1.181 1.079 2.420 4.60 0.579 0.252 7.38 6.55 0.150 ... ... ... ... 0.61 ... 0.37 M3V
M3.5V 3270 3.515 -2.28 -2.03 9.82 0.300 12.10 1.60 ... -1.28 2.78 1.19 10.87 ... 1.200 1.178 2.680 5.00 0.558 0.269 7.93 7.10 0.170 ... ... ... ... 0.66 ... 0.27 M3.5V
M4V 3210 3.507 -2.51 -2.14 10.10 0.274 12.61 1.65 ... -1.40 2.94 1.24 11.21 ... 1.222 1.241 2.831 5.25 0.557 0.280 8.20 7.36 0.180 ... ... ... ... 0.71 ... 0.23 M4V
M4.5V 3110 3.493 -2.84 -2.40 10.74 0.217 13.58 1.69 ... -1.54 3.16 1.28 12.04 ... 1.23 1.345 3.073 5.65 0.564 0.301 8.80 7.93 0.200 ... ... ... ... 0.81 ... 0.184 M4.5V
M5V 3060 3.486 -3.11 -2.52 11.04 0.196 14.15 1.83 ... -1.70 3.35 1.33 12.45 ... 1.24 1.446 3.278 5.95 0.580 0.312 9.09 8.20 0.210 0.17 ... ... ... 0.91 0.47 0.162 M5V
M5.5V 2930 3.467 -3.58 -2.79 11.72 0.156 15.30 1.94 ... -1.95 3.71 1.38 13.35 ... 1.3 1.656 3.664 6.50 0.588 0.329 9.72 8.80 0.220 0.19 ... ... ... 1.13 0.52 0.123 M5.5V
M6V 2810 3.449 -4.13 -2.98 12.19 0.137 16.32 2.01 ... -2.37 4.16 1.43 14.26 ... 1.3 1.950 4.10 7.10 0.605 0.352 10.18 9.22 0.225 0.21 ... ... ... 1.45 0.60 0.102 M6V
M6.5V 2740 3.438 -4.62 -3.10 12.48 0.126 17.10 2.07 ... -2.70 4.50 1.48 14.40 ... ... 1.988 4.26 7.60 0.609 0.360 10.47 9.50 0.235 0.22 ... ... ... 1.58 0.64 0.093 M6.5V
M7V 2680 3.428 -4.99 -3.19 12.71 0.120 17.70 2.12 ... -2.98 4.65 1.52 14.72 ... ... 2.180 4.50 8.00 0.613 0.390 10.70 9.70 0.240 0.24 ... ... ... 1.77 0.70 0.090 M7V
M7.5V 2630 3.420 -5.32 -3.24 12.84 0.116 18.16 2.14 ... -3.15 4.72 1.55 15.20 ... ... 2.160 4.56 8.35 0.650 0.422 10.88 9.81 0.260 0.25 ... ... ... 1.85 0.74 0.088 M7.5V
M8V 2570 3.410 -5.65 -3.28 12.95 0.114 18.60 2.15 ... -3.11 4.86 1.57 15.20 ... ... 2.150 4.62 8.70 0.677 0.450 11.05 9.92 0.285 0.26 ... ... ... 1.93 0.77 0.085 M8V
M8.5V 2420 3.384 -5.78 -3.47 13.42 0.104 19.20 2.16 ... -3.09 5.10 1.59 15.90 ... ... 1.967 4.63 8.90 0.69 0.465 11.46 10.30 0.310 0.265 ... ... ... 1.96 0.80 0.080 M8.5V
M9V 2380 3.377 -5.86 -3.52 13.54 0.102 19.40 2.17 ... -3.00 4.78 1.60 16.20 ... ... 1.890 4.66 9.00 0.72 0.47 11.59 10.40 0.330 0.27 ... ... ... 1.99 0.82 0.079 M9V
M9.5V 2350 3.371 -6.13 -3.57 13.67 0.101 19.75 ... ... -3.10 4.86 1.61 16.40 ... ... 2.510 4.73 9.30 0.745 0.50 11.75 10.50 0.350 0.27 ... ... ... 2.00 0.84 0.078 M9.5V
L0V 2270 3.356 -6.25 -3.60 13.75 0.102 20.0 ... ... -3.45 ... 1.68 16.60 ... ... ... 4.85 9.40 0.76 0.51 11.76 10.55 0.36 0.27 ... ... ... 2.01 0.86 0.077 L0V
L1V 2160 3.334 -6.48 -3.71 14.02 0.0995 20.5 ... ... ... ... 1.66 16.90 ... ... ... 4.91 9.65 0.82 0.54 12.12 10.77 0.37 0.28 ... ... ... 2.02 0.88 0.076 L1V
L2V 2060 3.314 -6.62 -3.82 14.28 0.0970 20.9 ... ... ... ... 1.69 17.30 ... ... ... 5.05 9.90 0.89 0.58 12.47 11.00 0.47 0.28 ... ... ... 2.04 0.90 0.075 L2V
L3V 1920 3.283 -7.05 -3.96 14.65 0.0942 21.7 ... ... ... ... 1.70 18.10 ... ... ... 5.29 10.1 0.97 0.61 12.78 11.40 0.50 0.29 ... ... ... 2.10 0.92 ... L3V
L4V 1870 3.272 -7.53 -4.01 14.77 0.0940 22.3 ... ... ... ... 1.74 18.35 ... ... ... 5.57 10.5 1.00 0.63 13.09 11.50 0.60 0.30 ... ... ... 2.20 0.94 ... L4V
L5V 1710 3.233 -7.87 -4.20 15.23 0.0909 ... ... ... ... ... 1.71 18.50 ... ... ... 6.28 11.1 1.02 0.648 13.46 11.87 0.68 0.32 ... ... ... 2.33 0.97 ... L5V
L6V 1550 3.190 ... -4.38 15.70 0.0891 ... ... ... ... ... 1.74 19.25: ... ... ... ... ... 1.06 0.654 13.89 12.20 0.76 0.36 ... ... ... 2.51 1.00 ... L6V
L7V 1530 3.185 ... -4.41 15.77 0.0886 ... ... ... ... ... 2.11 19.30: ... ... ... ... ... 1.13 0.645 14.31 12.55 0.84 0.41 ... ... ... 2.71 1.04 ... L7V
L8V 1420 3.152 ... -4.55 16.12 0.0875 ... ... ... ... ... 1.87 20.00: ... ... ... ... ... 1.16 0.625 14.65 12.74 0.845 0.48 ... ... ... 2.93 1.09 ... L8V
L9V 1370 3.137 ... -4.61 16.27 0.0877 ... ... ... ... ... ... ... ... ... ... ... ... 1.18 0.59 14.82 12.93 0.82 0.57 ... ... ... 3.15 1.16 ... L9V
T0V 1255 3.099 ... -4.66 16.39 0.098 ... ... ... ... ... ... ... ... ... ... ... ... 1.02 0.54 14.81 13.12 0.70 0.68 ... ... ... 3.36 1.23 ... T0V
T1V 1240 3.093 ... -4.69 16.47 0.100 ... ... ... ... ... ... ... ... ... ... ... ... 1.02 0.45 14.63 13.29 0.58 0.82 ... ... ... 3.55 1.33 ... T1V
T2V 1220 3.086 ... -4.73 16.57 0.100 ... ... ... ... ... ... ... ... ... ... ... ... 0.86 0.27 14.52 13.45 0.53 0.99 ... ... ... 3.70 1.43 ... T2V
T3V 1200 3.079 ... -4.77 16.67 0.102 ... ... ... ... ... ... ... ... ... ... ... ... 0.68 0.08 14.45 13.52 ... 1.19 ... ... ... 3.82 1.55 ... T3V
T4V 1180 3.072 ... -4.84 16.84 0.101 ... ... ... ... ... ... ... ... ... ... ... ... 0.35 -0.19 14.55 14.20 ... 1.43 ... ... ... 3.90 1.68 ... T4V
T4.5V 1170 3.068 ... -4.90 16.99 0.099 ... ... ... ... ... ... ... ... ... ... ... ... 0.2 -0.06 14.69 14.55 ... 1.57 ... ... ... 3.93 1.75 ... T4.5V
T5V 1160 3.064 ... -4.95 17.12 0.101 ... ... ... ... ... ... ... ... ... ... ... ... 0.2 -0.08 14.88 14.9 ... 1.70 ... ... ... 3.95 1.81 ... T5V
T5.5V 1040 3.017 ... -5.04 17.34 0.099 ... ... ... ... ... ... ... ... ... ... ... ... 0.2 -0.10 15.13 15.1 ... 1.86 ... ... ... 3.97 1.89 ... T5.5V
T6V 950 2.978 ... -5.12 17.54 0.100 ... ... ... ... ... ... ... ... ... ... ... ... 0.1 -0.03 15.34 15.3 ... 2.0 ... ... ... 3.98 1.96 ... T6V
T7V 825 2.916 ... -5.37 18.17 0.098 ... ... ... ... ... ... ... ... ... ... ... ... 0.0 0.00 15.83 15.8 ... 2.4 ... ... ... 4.01 2.11 ... T7V
T7.5V 750 2.875 ... -5.54 18.59 0.095 ... ... ... ... ... ... ... ... ... ... ... ... 0.2 -0.05 16.61 16.5 ... 2.6 ... ... ... 4.05 2.19 ... T7.5V
T8V 680 2.833 ... -5.71 19.02 0.095 ... ... ... ... ... ... ... ... ... ... ... ... 0.2 -0.05 17.30 16.9 ... 2.8 ... ... ... 4.08 2.26 ... T8V
T8.5V 600 2.778 ... -5.93 19.57 0.097 ... ... ... ... ... ... ... ... ... ... ... ... 0.2 ... 18.05 18.3 ... 3.0 ... ... ... ... ... ... T8.5V
T9V 560 2.748 ... -6.15 20.12 0.100 ... ... ... ... ... ... ... ... ... ... ... ... 0.1 -0.20 18.51 18.6 ... 3.2 ... ... ... ... ... ... T9V
T9.5V 510 2.708 ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 19.75 20.5 ... 3.4 ... ... ... ... ... ... T9.5V
Y0V 450 2.653 ... -6.52 21.04 0.104 ... ... ... ... ... ... ... ... ... ... ... ... ... -0.5 20.15 21.0 ... 3.6 ... ... ... ... ... ... Y0V
Y0.5V 400 2.602 ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... -0.6 22.0 21.6 ... 3.9 ... ... ... ... ... ... Y0.5V
Y1V 360 2.556 ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 22.7 22.2 ... 4.1 ... ... ... ... ... ... Y1V
Y1.5V 325 2.512 ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... -0.8 23.2 22.9 ... 4.4 ... ... ... ... ... ... Y1.5V
Y2V 320 2.505 ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... 23.6 23.5 ... 4.7 ... ... ... ... ... ... Y2V
Y4V 250 2.398 ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... .... ... ... 28.2 ... ... 6.1 ... ... ... ... ... ... Y4V
#SpT Teff logT BCv logL Mbol R_Rsun Mv B-V Bt-Vt G-V Bp-Rp G-Rp M_G b-y U-B V-Rc V-Ic V-Ks J-H H-K M_J M_Ks Ks-W1 W1-W2 W1-W3 W1-W4 g-r i-z z-Y Msun #SpT
The adopted mean masses a for a given dwarf subtype are tentative.
With only a few minor exceptions (mainly for b-y colors; see notes
below), this is *not* a compilation of values adopted from similar
tables published by other authors. The author's motivation was to
construct a "modern" table of mean stellar parameters based on an
*independent* survey of the literature and catalog values. In the
process, I've made judgements on which stars and stellar
classifications reflect the "modern" MK system. You can get a sense
of the messiness and care that went into this process by perusing the
spectral type note files in the previously mentioned directory. This
is an independently constructed compendium, and the author will make
small adjustments, corrections, and add content periodically. Values
in the table marked by a asterisk (*) are very preliminary, and
probably shouldn't be used for any serious calculations yet. -EEM
Further notes by spectral class, followed by summaries of updates.
OB stars:
A major redux of the Q-method of dereddening in Oct 2011 results in
some shifts to the color scale among the late-O/early-B stars. There
are no O-B2 stars within the Local Bubble (at least out to 75 pc; this
is a long standing problem with empirical color calibrations,
e.g. Johnson & Morgan 1953), so one must attempt some bootstrap some
dereddening in order to empirically derive the intrinsic color
sequence. To augment the samples of negligibly reddened stars within
75 pc, I have taken a sample of stars which have measured neutral
hydrogen (H I) column densities, as measured through modeling of Lyman
alpha absorption in UV spectra (e.g. Bohlin et al. 1983), then
estimated E(B-V) from adoption of the E(B-V)/N_HI relation from Savage
& Mathis (1979; N(HI)/E(B-V) = 4.8e21 atoms/cm^2/mag). While there may
be intrinsic scatter in the N(HI)/E(B-V) relation through the ISM, we
consider this a useful statistical dereddening technique for getting
at the intrinsic color sequence of hot dwarf stars. While the
E(B-V)/N_HI relation is calibrated using E(B-V)s for hot stars that
rely on an intrinsic SpT vs. color sequence (and hence one could
object that there is some circularity in our calibration scheme), the
*slope* of the relation mostly rely on the HI column densities for hot
stars with relatively large reddenings - hence any zero-point issues
in the color sequence at the