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.todo
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<?xml version="1.0"?>
<todo version="0.1.20">
<note priority="medium" time="1448067696" done="1448099877">
Input the rho form
</note>
<note priority="medium" time="1448067703" done="1448099879">
Input the bracketing algorithm
</note>
<note priority="medium" time="1448095587" done="1448183474">
Fix eps_min eps_max
</note>
<note priority="medium" time="1448099640" done="1448185728">
Fix radial action o f Black hole. There is somethingg wrong. Either the limits are wrong or the definition for radial action is wrong.
<comment>
c=1
</comment>
</note>
<note priority="medium" time="1448166998" done="1448183507">
Add the c into the radial invariant comparison :)
<comment>
Dimensionless variables
</comment>
</note>
<note priority="medium" time="1448167608" done="1448183525">
Rho is incorrect now, we changed to dimensionless variables again..
</note>
<note priority="medium" time="1448170109" done="1448185710">
Implement iterative ulimits test
<comment>
Maybe later
</comment>
</note>
<note priority="medium" time="1448183057" done="1448183601">
Constants are currently wrong
</note>
<note priority="medium" time="1448183486" done="1448185693">
Add e_min, e_max limits for the newtonian case
<comment>
Not needed anymore
</comment>
</note>
<note priority="medium" time="1448183543" done="1448183596">
Remove all mps and cs
</note>
<note priority="medium" time="1448183678" done="1448185701">
Set limits for the newtonian radial action according to the Notebook file
<comment>
Duplicate
</comment>
</note>
<note priority="low" time="1448099870" done="1448167012">
If nothing else works, redo the limits of E and L, dont redo the whole work..
</note>
<note priority="verylow" time="1448070827" done="1448185716">
Check the rho form
<comment>
Looks good
</comment>
</note>
<note priority="medium" time="1448099818">
Design a few tests: plot allowed values of E, L, r for both radial actions
</note>
<note priority="medium" time="1448099834">
Compare the plotted values with the Sadeghian article
</note>
<note priority="medium" time="1448190387">
Check the tests; there is something wrong with u_limits. The assert check says the u limits cannot be found in the full range of E and L
</note>
<note priority="medium" time="1448192023">
Contradiction; the L_max, L_min, eps_max, eps_min seem to be in contradiction with the 4-velocity integration (that is, the 4-velocity is imaginary for some values of eps, L within the limits)
</note>
<note priority="medium" time="1448245564">
Check the E and L limits; there could be something funny going on with the angular momentum limits from the u_limits derivation file. It says the angular momentum has an upper bound and lower bound between <0 and >0, while I think the bounds should be larger than zero at all times
</note>
<note priority="medium" time="1449711390">
the check_effective_potential has wrong eps; switch to dimensionless
</note>
</todo>