It depends how you want to set up your guess-def-set parameters. For argument I'll describe a system of BCC Mo metal and MoO3, where you want to determine what fraction of Mo is in each. My usual method is just to set each path as N=1, SO2=amp_O for Mo-O, and N=1, SO2=amp_Mo for Mo-Mo. Then, in guess-def-set, I'd GUESS N_Mo = 8 N_O = 6 SET (SO2 as determined by my standards) so2=0.87 and DEFINE my amplitudes amp_Mo = N_Mo*so2 amp_O = N_O*so2 (And of course you want all the other parameters as well, I'm just showing the amplitude ones.) Then, once I get my N_Mo and N_O I can scale these to my expected coordination numbers and see if I get reasonable contributions for each. (Is N_Mo/8 + N_O/6 = 1?) If I had a really good reason to believe all Mo metal in my sample had an average Mo-Mo coordination of exactly 8 and all Mo oxide had an average Mo-O coordination of exactly 6, I could define things another way. SET N_Mo = 8 N_O = 6 so2=0.87 DEFINE amp_Mo = N_Mo*so2*Frac_metal amp_O = N_O*so2*(1-Frac_metal) GUESS Frac_metal=0.5 And that constrains all the amplitude parameters so the only result is what atomic fraction of Mo is present in the metal phase. Makes sense? -Jason On Thu, Nov 7, 2013 at 2:05 PM, KONG Qingyu < qingyu.kong@synchrotron-soleil.fr> wrote:
Hello Jason,
Thanks a lot for your reply.
What I can get from Artemis is the fitted parameters (amp, enot, ss^2, delr) of each path, Mo-O, Mo-Mo, how can one get the percentage of Mo, x from Li2MoO3 and 100-x from MoO3, from the fitted information.
Best regards,
Qingyu
Beamline ODE Société civile Synchrotron SOLEIL L'Orme des Merisiers Saint-Aubin - BP 48 91192 GIF-sur-YVETTE CEDEX Tel: +33 (0)1 69 35 97 84 (office) +33 (0)1 69 35 97 16 (beamline) email: kong@synchrotron-soleil.fr