Sunday, May 20, 2007

Diploma thesis

Finally I had been able to complete my diploma thesis on time. In fact, I submitted it already in March. I have a blog made parallel to my thesis, which can be found on here

If interested, the whole thesis can be found here: http://www.mydatabus.com/public/calculi/thesis.pdf
Of course, I shall be putting more details of further development of the problem in up-coming days.

Monday, February 05, 2007

Theoretical Assessment

Should be found out:
- Scattering cross-section according to Kinematic Scattering
- Comparing it with the one derived by van den Hulst
- Find general series expansion for K(w) and then calculate Q_abs, subsequently Q_sca in general form

Is phase difference too big in case of X-Rays? If yes, then refractive index of the particle must be differentiating by larger amount than the surrounding.

Monday, January 22, 2007

No hope for Mathematica

There is no hope as such for Mathematica problem. I would have to reply solely on IDL and probable integration of which with Mathematica. I still have one more option open, to write iteration method inside Mathematica. One such fine example can be found here:
pi[n_, theta_] := 
Module[{p1,p2}, 
   p1=0; 
   p2=1; 
   Do[ 
     p1=p2*(2i-1)/(i-1) Cos[theta] -  i/(i-1) p1; 
     tmp=p2; 
     p2=p1; 
     p1=tmp,{i,2,n}] 
   p2 
]

But it doesn't make a sense to try too much with Mathematica, when IDL is working pretty good.

Friday, January 19, 2007

Problem with Mathematica

The problem with Mathematica intensified. It seems that recursion is not working properly with Mathematica. The question has been submitted in the forum. It should be seen, what others understand for it.
But IDL is working OK. I have found the error with the understanding that if “nang” has been taken for granted for “q” wasn't a good idea, since algorithm relies heavily on value of “cos(theta)” which has reflective values on either side of 90 degrees. So now the conversion from q to angle has been introduced. Product of which can be seen next time. No intense involvment has been on my side due to time constraints.

Thursday, January 18, 2007

Major IDL Changes

IDL programme has be reedited. All the mistakes relating to misunderstanding of role of “j” and “jj” has been cleared. Now the next step would be to try to integrate the relation q=2k sin(theta/2) must be introduced. All the values related to “nang” must be taken care after. Optimism is there to be able to implement it with “q” vector. The attempt with Mathematica had not been so successful yet. Trouble remains with exact execution of recursive function.

It is written now as,
pi[i_,theta_] := (2i-1)/(i-1) Cos[theta] pi [i-1, theta] - n/(n-1) pi[i-2, theta]
tau[i_,theta_] := I Cos[theta] pi[i,theta] - (n+1) pi[i-1,theta]

The problem still lies with initialization pi[0,theta] = 0, pi[1,theta] = 1 for all 'theta'.

Then with writing S1 & S2 function in loop, which are, in fact, Sum over 1-nstop, probably can be written like,
S1Temp[l_,theta_] := (2l+1)/(l(l+1)) a[l] pi[l,theta] + b[l] tau[l,theta]
then
S1[theta_] = Sum[S1Temp[l,theta], {l,1,nstop}]

Wednesday, January 17, 2007

New plan

Preparation:
Read given 2 papers & Jens-Nielson for units-problem
Jens-Nielson & Klaus's Arbeit for Chapter I & II
Write:
Debye Series
Programming:
Implementation of loops in Mathematica

Regarding Debye Series:
some papers and van den Hulst and original Debye paper

-----
done for today:
Modification in IDL programme. S1(theta) & S2(theta) ranges over n(1->nstop) and “nang” belongs to “theta”. The array for S1 & S2 are limited for allowed number of angles, so should be array of “Mie”.
In Mathematica, all the initialization should be made, then S1 & S2 must be calculated, where they have Table form.

Tuesday, January 16, 2007

Understanding Recursion

nang: number of angles between 0-90 degrees
dang: defines angles for calculation (kleinste Einheit)

For j: 1 -- nang
theta = (j-1) * nang
mu_j = cos(theta)
where dang = 0.5*Pi * 1/(nang-1)

mxnang: maximum allowable “nang”

Possibility I:
mu = Table[0,{mxnang}]
For [i=o, i<= nang, theta = (i-1)*dang; mu[[i+1]] = cos(theta); i++]

Possibility II:
mu = Table[theta=(i-1)*dang; cos(theta), {i,0,nang}]
mu = (theta=(i-1)*dang; cos(theta))&/@ Range[0,nang]
mu = Array[theta=(i-1)*dang; cos(theta)&, nang, 0]