Timeline for Asymptotic behavior and of an integral on a d-dimensional torus
Current License: CC BY-SA 4.0
8 events
| when toggle format | what | by | license | comment | |
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| Jul 23 at 12:19 | comment | added | Ko Hey | I calculated them but I found that the factor $\frac{1}{t^{d-1}}$ may be missed through variable transform. @fred | |
| Jul 20 at 8:21 | comment | added | Ko Hey | Thank you for your update. I have calculated them for d dimensional cases. I want to evaluate the convergence rate with respect to $t$ which may depends on $d$. How can we evaluate them. | |
| Jul 17 at 11:18 | history | edited | Fred Hucht | CC BY-SA 4.0 |
cosmetic
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| Jul 17 at 11:12 | comment | added | Fred Hucht | @KoHey See new first equation (for the convergence), and my update #1. | |
| Jul 17 at 11:12 | history | edited | Fred Hucht | CC BY-SA 4.0 |
Added Update #1
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| Jul 17 at 6:02 | comment | added | Ko Hey | Thank you for your rapid reply. I am trying to verify the calculations for the multi-dimensional case. One thing I want to know is the order of convergence of $I(t;\mathbf{v})$ with respect to $𝑡$. Is it easy? I cannot obtain this by the method of stationary phase. | |
| Jul 16 at 21:55 | history | edited | Fred Hucht | CC BY-SA 4.0 |
cosmetic
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| Jul 16 at 21:49 | history | answered | Fred Hucht | CC BY-SA 4.0 |