About · research.nexcore.ltd

Myagmardorj Namnansuren

Independent researcher based in Ulaanbaatar, Mongolia. Director at Nexcore LTD. Interested in numerical computation, number theory, and random matrix theory.

This research began as a computational exploration of the Bogomolny–Keating predictions for prime-correlated structure in Riemann zero statistics. Using Odlyzko's zero data, computational observations consistent with the BK amplitude law were found across multiple independent datasets.

Улаанбаатар, Монгол дахь бие даасан судлаач. Nexcore LTD-ийн захирал. Тоон тооцоолол, тооны онол, санамсаргүй матрицын онолыг судалдаг.

Богомолны–Китингийн таамаглалыг тоон аргаар шалгах оролдлогоос эхэлсэн судалгаанд BK амплитудын хуулийн хүчтэй нотолгоо олдсон.

CitationИшлэл

BibTeX

@misc{namnansuren2026prime,
  author    = {Namnansuren, Myagmardorj},
  title     = {Numerical Evidence for Prime-Correlated
               Structure in High Riemann Zero Blocks},
  year      = {2026},
  publisher = {Zenodo},
  doi       = {10.5281/zenodo.20077673},
  url       = {https://zenodo.org/records/20077673}
}

APA

Namnansuren, M. (2026). Numerical Evidence for
Prime-Correlated Structure in High Riemann Zero
Blocks. Zenodo.
https://doi.org/10.5281/zenodo.20077673

Independent computational observation. Not peer-reviewed. Fitting bias, normalization sensitivity, multiple-testing effects, finite-window artifacts, and dataset dependence have not been fully ruled out. Independent replication, bootstrap controls, window-stability tests, and explicit-formula derivation are required before this can be considered a research-grade contribution. Бие даасан тооцооллын ажиглалт. Peer review хийгдээгүй. Fitting bias, нормализацийн мэдрэмж, олон тестийн нөлөө, finite-window артефакт нарийн шалгагдаагүй. Бие даасан баталгаажуулалт, bootstrap хяналт, цонхны тогтвортой байдлын тест шаардлагатай.