Buchstab function

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The Buchstab function (or Buchstab's function) is the unique continuous function ${\displaystyle \omega :{ℝ}_{\ge 1}\to {ℝ}_{>0}}$ defined by the delay differential equation

${\displaystyle \omega (u)=\frac{1}{u},1\le u\le 2,}$

${\displaystyle \frac{d}{du}(u\omega (u))=\omega (u-1),u\ge 2.}$

In the second equation, the derivative at u = 2 should be taken as u approaches 2 from the right. It is named after Alexander Buchstab, who wrote about it in 1937.

The Buchstab function approaches ${\displaystyle e^{-\gamma }\approx 0.561}$ rapidly as ${\displaystyle u\to \mathrm{\infty },}$ where ${\displaystyle \gamma }$ is the Euler–Mascheroni constant. In fact,

${\displaystyle |\omega (u)-e^{-\gamma }|\le \frac{\rho (u-1)}{u},u\ge 1,}$

where ρ is the Dickman function.^[1] Also, ${\displaystyle \omega (u)-e^{-\gamma }}$ oscillates in a regular way, alternating between extrema and zeroes; the extrema alternate between positive maxima and negative minima. The interval between consecutive extrema approaches 1 as u approaches infinity, as does the interval between consecutive zeroes.^[2]

The Buchstab function is used to count rough numbers. If Φ(x, y) is the number of positive integers less than or equal to x with no prime factor less than y, then for any fixed u > 1,

${\displaystyle \mathrm{\Phi }(x,x^{1/u})\sim \omega (u)\frac{x}{\log x^{1/u}},x\to \mathrm{\infty }.}$

Template:Reflist

• Template:Citation
• "Buchstab Function", Wolfram MathWorld. Accessed on line Feb. 11, 2015.
• §IV.32, "On Φ(x,y) and Buchstab's function", Handbook of Number Theory I, József Sándor, Dragoslav S. Mitrinović, and Borislav Crstici, Springer, 2006, Template:ISBN.
• "A differential delay equation arising from the sieve of Eratosthenes", A. Y. Cheer and D. A. Goldston, Mathematics of Computation 55 (1990), pp. 129–141.
• "An improvement of Selberg’s sieve method", W. B. Jurkat and H.-E. Richert, Acta Arithmetica 11 (1965), pp. 217–240.
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