I am a masters student and I am interested in number theory. Due to lockdown I have a lot of time and I thought of reading a research paper in Number theory which is " Many Odd zeta values are irrational by " Stephane Fischler, Johannes Sprang and Wadim Zudilin. 

I have a question on page 8 just after the (3.6) 

> My question is -> how authors deduced that $c_k,j \leq  (2D)^{3Dn} ( n! / (k)^{ n+1} )^{s+1-3D}$ , for n large. 

Adding image->[![ Inequality after (3.6) in whose deduction I am struck ][1]][1]

[![defination of $c_{k,j}$][2]][2]



I am not able to understand how  authors came to this conclusion. I think probably using $c_k, j$ 's definition one could get it. I can divide and multiply by $(2)^{3Dn} $ and use that s+1> 3D and that there are n+1 terms in denominator raised to exponent s+1 . These things indicate me that definition of $c_{j, n} $ would be used but I am not getting exact given inequality. 

Can someone please tell how it will be derived. 



Please help. 

  [1]: https://i.sstatic.net/Puj6D.jpg
  [2]: https://i.sstatic.net/eo863.jpg