Difference between revisions of "Marks-Gravagne-Davis Fourier transform as a delta integral with classical exponential kernel"

Revision as of 16:08, 15 January 2023

Theorem

If $0 \in \mathbb{T}$, then the Marks-Gravagne-Davis Fourier transform obeys $$\mathscr{F}\{f\}(z;0) = \displaystyle\int_{-\infty}^{\infty} f(t)e^{-2i\pi zt} \Delta t.$$

Proof

References

Robert J. Marks II, Ian A. Gravagne and John M. Davis: A generalized Fourier transform and convolution on time scales (2008)... (previous): Section 3 (3.1)

@@ Line 6: / Line 6: @@
 ==References==
+*{{PaperReference|A generalized Fourier transform and convolution on time scales|2008|Robert J. Marks II|author2=Ian A. Gravagne|author3=John M. Davis|prev=Marks-Gravagne-Davis Fourier transform|next=}}: Section 3 (3.1)
 [[Category:Theorem]]
 [[Category:Unproven]]

Difference between revisions of "Marks-Gravagne-Davis Fourier transform as a delta integral with classical exponential kernel"

Revision as of 16:08, 15 January 2023

Theorem

Proof

References

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