# apparent horizon 1/1
#
# column  1 = cctk_iteration
# column  2 = cctk_time
# column  3 = centroid_x
# column  4 = centroid_y
# column  5 = centroid_z
# column  6 = min radius
# column  7 = max radius
# column  8 = mean radius
# column  9 = quadrupole_xx
# column 10 = quadrupole_xy
# column 11 = quadrupole_xz
# column 12 = quadrupole_yy
# column 13 = quadrupole_yz
# column 14 = quadrupole_zz
# column 15 = min x
# column 16 = max x
# column 17 = min y
# column 18 = max y
# column 19 = min z
# column 20 = max z
# column 21 = xy-plane circumference
# column 22 = xz-plane circumference
# column 23 = yz-plane circumference
# column 24 = ratio of xz/xy-plane circumferences
# column 25 = ratio of yz/xy-plane circumferences
# column 26 = area
# column 27 = m_irreducible
# column 28 = areal radius
# column 29 = expansion Theta_(l)
# column 30 = inner expansion Theta_(n)
# column 31 = product of the expansions
# column 32 = mean curvature
# column 33 = gradient of the areal radius
# column 34 = gradient of the expansion Theta_(l)
# column 35 = gradient of the inner expansion Theta_(n)
# column 36 = gradient of the product of the expansions
# column 37 = gradient of the mean curvature
# column 38 = minimum  of the mean curvature
# column 39 = maximum  of the mean curvature
# column 40 = integral of the mean curvature
0	0.000	0.000023	0.000000	0.000000	1.140952225	2.861310234	2.095388168	1.334545583	4.266100675e-06	0.000000000	1.334550987	-0.000000000	1.216417184	-2.000816075	2.001091988	-2.000940575	2.000908054	-1.909799041	1.909799041	13.15210649	11.54425898	11.91559584	0.8777498106	0.9059838326	50.26548262	1.000000002	2.000000003	0.03192513685	-1.381621379	-0.04409903911	0.7067732578	0.000000000	0.000000000	0.000000000	0.000000000	0.000000000	0.6831264634	0.7175607184	35.46695400