// cone10.fe // Surface Evolver datafile for case 10 of Jean Taylor's // classification of possible minimal cones. // See "gogo" command at end for evolution to absolute minimal surface. #define alpha asin(1/sqrt(3)) #define beta asin(sqrt((3-sqrt(6))/6)) #define gamma asin((sqrt(3)-sqrt(2))/2/sqrt(3)) #define r1 sin(2*beta) #define h1 cos(2*beta) vertices 1 0 0 1 fixed 2 r1 0 h1 fixed 3 r1*cos(2*pi/3) r1*sin(2*pi/3) h1 fixed 4 r1*cos(4*pi/3) r1*sin(4*pi/3) h1 fixed 5 cos(pi/3-gamma) sin(pi/3-gamma) 0 fixed 6 cos(pi/3+gamma) sin(pi/3+gamma) 0 fixed 7 cos(pi-gamma) sin(pi-gamma) 0 fixed 8 cos(pi+gamma) sin(pi+gamma) 0 fixed 9 cos(5*pi/3-gamma) sin(5*pi/3-gamma) 0 fixed 10 cos(5*pi/3+gamma) sin(5*pi/3+gamma) 0 fixed 11 r1 0 -h1 fixed 12 r1*cos(2*pi/3) r1*sin(2*pi/3) -h1 fixed 13 r1*cos(4*pi/3) r1*sin(4*pi/3) -h1 fixed 14 0 0 -1 fixed 15 0 0 0 edges 1 1 2 fixed 2 1 3 fixed 3 1 4 fixed 4 2 5 fixed 5 3 6 fixed 6 3 7 fixed 7 4 8 fixed 8 4 9 fixed 9 2 10 fixed 10 5 6 fixed 11 7 8 fixed 12 9 10 fixed 13 5 11 fixed 14 6 12 fixed 15 7 12 fixed 16 8 13 fixed 17 9 13 fixed 18 10 11 fixed 19 11 14 fixed 20 12 14 fixed 21 13 14 fixed 22 1 15 23 2 15 24 3 15 25 4 15 26 5 15 27 6 15 28 7 15 29 8 15 30 9 15 31 10 15 32 11 15 33 12 15 34 13 15 35 14 15 faces 1 1 23 -22 2 2 24 -22 3 3 25 -22 4 -4 23 -26 5 -5 24 -27 6 -6 24 -28 7 -7 25 -29 8 -8 25 -30 9 -9 23 -31 10 -10 26 -27 11 -11 28 -29 12 -12 30 -31 13 -13 26 -32 14 -14 27 -33 15 -15 28 -33 16 -16 29 -34 17 -17 30 -34 18 -18 31 -32 19 -19 32 -35 20 -20 33 -35 21 -21 34 -35 read hessian_normal // Command for evolution to absolute minimal surface gogo := { o; // pop central vertex refine edge where length > .19 and valence != 2; u;u; g 10; t .05; V; g 10; t .05; o; // need to pop again V; V; u; u; g 10 ; t .05; g 10; V; g 10; t .05; w .001; g 10; t .05; g 10; hessian_seek; V; t .05; hessian_seek; hessian_seek; refine edge where valence != 2 and length > .35; V; g 10; hessian_seek; r; g 10 ; u; u; g 10; hessian_seek; hessian; hessian; u;V;u;V; g 10; hessian_seek; hessian; }