Theory and modeling
EHYBRID 1.5 D MHD plasma modeling of:
TCE GRIP Mo XRL
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 69, 70, 71, 73 deg incidence and PP-MP delay 50 ps
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 67-75 deg incidence and PP-MP delay 350 ps
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 67-75 deg incidence and PP-MP delay 550 ps
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 67-75 deg incidence and PP-MP delay 750 ps
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 67-75 deg incidence and PP-MP delay 600 ps
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 67-75 deg incidence and PP-MP delay 400 ps
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 67-75 deg incidence and PP-MP delay 200 ps
Mo with PPP and PP 300 ps and 0 deg - MP 5 ps at 67-75 deg incidence and PP-MP delay 500 ps
TCE GRIP Zr XRL
Zr with PP 300 ps and 7deg -MP at 72 deg incidence and peak to peak delay of 500 ps
TCE GRIP Ag XRL
TCE GRIP Dy XRL
Dy with PP-MP both at 45 deg incidence each 40 ps and delay of 500 ps
Dy with PP-MP both at 45 deg incidence each 40 ps and delay of 1000 ps
Dy with PP-MP both at 45 deg incidence each 40 ps and delay of 1500 ps
Dy with PP-MP both at 45 deg incidence each 100 ps and delay of 1500 ps
Dy with PP-MP both at 45 deg incidence each 70 ps and delay of 70 ps
Ray-tracing is currently under development
Experimental work
The experimental set-up for sub 10 nm XRL is under development at PHELIX/GSI in Darmstadt, Germany.