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arxiv: 2504.13240 · v1 · pith:3QAL3FNPnew · submitted 2025-04-17 · ❄️ cond-mat.mes-hall · quant-ph

Response to recent comments on Phys. Rev. B 107, 245423 (2023) and Subsection S4.3 of the Supp. Info. for Nature 638, 651-655 (2025)

Morteza Aghaee , Zulfi Alam , Mariusz Andrzejczuk , Andrey E. Antipov , Mikhail Astafev , Amin Barzegar , Bela Bauer , Jonathan Becker
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Umesh Kumar Bhaskar Alex Bocharov Srini Boddapati David Bohn Jouri Bommer Leo Bourdet Samuel Boutin Benjamin J. Chapman Sohail Chatoor Anna Wulff Christensen Patrick Codd William S. Cole Paul Cooper Fabiano Corsetti Ajuan Cui Andreas Ekefj\"ard Saeed Fallahi Luca Galletti Geoff Gardner Deshan Govender Flavio Griggio Ruben Grigoryan Sebastian Grijalva Sergei Gronin Jan Gukelberger Marzie Hamdast Esben Bork Hansen Sebastian Heedt Samantha Ho Laurens Holgaard Kevin Van Hoogdalem Jinnapat Indrapiromkul Henrik Ingerslev Lovro Ivancevic Thomas Jensen Jaspreet Jhoja Jeffrey Jones Konstantin V. Kalashnikov Ray Kallaher Rachpon Kalra Farhad Karimi Torsten Karzig Maren Elisabeth Kloster Christina Knapp Jonne Koski Pasi Kostamo Tom Laeven Gijs de Lange Thorvald Larsen Jason Lee Kyunghoon Lee Grant Leum Kongyi Li Tyler Lindemann Matthew Looij Marijn Lucas Roman Lutchyn Morten Hannibal Madsen Nash Madulid Michael Manfra Signe Brynold Markussen Esteban Martinez Marco Mattila Robert McNeil Ryan V. Mishmash Gopakumar Mohandas Christian Mollgaard Michiel de Moor Trevor Morgan George Moussa Chetan Nayak William Hvidtfelt Padk{\ae}r Nielsen Jens Hedegaard Nielsen Mike Nystrom Eoin O'Farrell Keita Otani Karl Petersson Luca Petit Dima Pikulin Mohana Rajpalke Alejandro Alcaraz Ramirez Katrine Rasmussen David Razmadze Yuan Ren Ken Reneris Ivan A. Sadovskyy Lauri Sainiemi Juan Carlos Estrada Salda\~na Irene Sanlorenzo Emma Schmidgall Cristina Sfiligoj Sarat Sinha Thomas Soerensen Patrick Sohr Toma\v{s} Stankevi\v{c} Lieuwe Stek Eric Stuppard Henri Suominen Judith Suter Sam Teicher Nivetha Thiyagarajah Raj Tholapi Mason Thomas Emily Toomey Josh Tracy Michelle Turley Shivendra Upadhyay Ivan Urban Dmitrii V. Viazmitinov Dominik Vogel John Watson Alex Webster Joseph Weston Georg W. Winkler David J. Van Woerkom Brian Paquelet W\"utz Chung Kai Yang Emrah Yucelen Jes\'us Herranz Zamorano Roland Zeisel Guoji Zheng Justin Zilke
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classification ❄️ cond-mat.mes-hall quant-ph
keywords arxivtopologicalnaturephysprotocolcommentsdiscoveryfalse
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The topological gap protocol (TGP) is a statistical test designed to identify a topological phase with high confidence and without human bias. It is used to determine a promising parameter regime for operating topological qubits. The protocol's key metric is the probability of incorrectly identifying a trivial region as topological, referred to as the false discovery rate (FDR). Two recent manuscripts [arXiv:2502.19560, arXiv:2503.08944] engage with the topological gap protocol and its use in Phys. Rev. B 107, 245423 (2023) and Subsection S4.3 of the Supplementary Information for Nature 638, 651-655 (2025), although they do not explicitly dispute the main results of either one. We demonstrate that the objections in arXiv:2502.19560 and arXiv:2503.08944 are unfounded, and we uphold the conclusions of Phys. Rev. B 107, 245423 (2023) and Nature 638, 651-655 (2025). Specifically, we show that no flaws have been identified in our estimate of the false discovery rate (FDR). We provide a point-by-point rebuttal of the comments in arXiv:2502.19560 and arXiv:2503.08944.

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