# EDGAR Filing Document

**Accession Number:** 0001821866
**File Stem:** 0001279569-26-000276
**Filing Date:** 2026-4
**Character Count:** 15799
**Document Hash:** 1e03b66c2f315061d119e6ad01b3ade5
**Contains OCR:** False
**Source Format:** 

## Filing Content

## Filing Summary
**0001279569-26-000276.hdr.sgml**: 20260406

**ACCESSION NUMBER**: 0001279569-26-000276

**CONFORMED SUBMISSION TYPE**: 6-K

**PUBLIC DOCUMENT COUNT**: 3

**CONFORMED PERIOD OF REPORT**: 20260406

**FILED AS OF DATE**: 20260406

**DATE AS OF CHANGE**: 20260406

**FILER**: 

**COMPANY DATA:**
- **COMPANY CONFORMED NAME:** BTQ Technologies Corp.
- **CENTRAL INDEX KEY:** 0001821866
- **STANDARD INDUSTRIAL CLASSIFICATION:** SERVICES-COMPUTER PROGRAMMING, DATA PROCESSING, ETC. [7370]
- **ORGANIZATION NAME:** 06 Technology
- **EIN:** 000000000
- **STATE OF INCORPORATION:** A1
- **FISCAL YEAR END:** 1231

**FILING VALUES:**
- **FORM TYPE:** 6-K
- **SEC ACT:** 1934 Act
- **SEC FILE NUMBER:** 001-42794
- **FILM NUMBER:** 26840212

**BUSINESS ADDRESS:**
- **ADDRESS IS A NON US LOCATION:** YES
- **STREET 1:** 700 WEST GEORGIA STREET, SUITE 2500
- **CITY:** VANCOUVER
- **PROVINCE COUNTRY:** A1
- **ZIP:** V7Y 1B3
- **BUSINESS PHONE:** (416) 479 9547

**MAIL ADDRESS:**
- **ADDRESS IS A NON US LOCATION:** YES
- **STREET 1:** 700 WEST GEORGIA STREET, SUITE 2500
- **CITY:** VANCOUVER
- **PROVINCE COUNTRY:** A1
- **ZIP:** V7Y 1B3

**FORMER COMPANY:**
- **FORMER CONFORMED NAME:** Sonora Gold & Silver Corp.
- **DATE OF NAME CHANGE:** 20200820

**UNITED STATES<br> SECURITIES AND EXCHANGE COMMISSION** **<br> Washington, D.C. 20549<br>FORM 6-K<br>REPORT OF FOREIGN PRIVATE ISSUER PURSUANT TO RULE 13a-16 OR 15d-16 <br> UNDER THE SECURITIES EXCHANGE ACT OF 1934**

**For the month of April 2026**<br> Commission File Number: **001-42794** 

**BTQ Technologies Corp.** ****<br> (Exact Name of Registrant as Specified in Charter)<br>

**700 West Georgia Street, Suite 2500**

**<u>Vancouver, British Columbia, V7Y 1B3</u>**

(Address of principal executive office)

Indicate by check mark whether the registrant files or will file annual reports under cover of Form 20-F or Form 40-F.

Form 20-F ☐ Form 40-F ☒

**EXHIBIT INDEX**

<br> <u>EXHIBIT</u> <u>DESCRIPTION</u> <br>[99.1](ex991.htm) [News Release dated April 6, 2026](ex991.htm)

**SIGNATURE**

Pursuant to the requirements of the Securities Exchange Act of 1934, the registrant has duly caused this report to be signed on its behalf by the undersigned, there unto duly authorized.

---

| | | | |
|:---|:---|:---|:---|
|  |  | **BTQ Technologies Corp.** | **BTQ Technologies Corp.** |
|  |  | (Registrant) | (Registrant) |
| Date: | April 6, 2026 | By: | *Lonny Wong* |
|  |  | Name: | Lonny Wong |
|  |  | Title: | Chief Financial Officer<br>|

---

## Exhibit 99.1

**Exhibit 99.1** 

**BTQ Technologies Publishes "Kardashev Scale Quantum Computing for Bitcoin Mining"**

*New research shows the real near-term Bitcoin quantum risk lies in signatures, not mining, reinforcing BTQ's focus on Bitcoin Quantum, QCIM, and quantum-native consensus*

* BTQ published "Kardashev Scale Quantum Computing for Bitcoin
Mining", a new arXiv paper by Pierre-Luc Dallaire-Demers, showing that while Grover's algorithm offers a theoretical shortcut, quantum
Bitcoin mining is physically and economically impractical once real-world hardware, error correction, and energy costs are included.<br>
 

* The paper finds that even in a highly favorable scenario, competitive
quantum mining would require roughly 10^8 physical qubits and 10^4 MW of power, while at Bitcoin's January 2025 mainnet difficulty the
requirements rise to about 10^23 qubits and 10^25 watts, approaching the energy output of a star.<br>
 

* The findings reinforce that the real near-term quantum threat
to Bitcoin is not mining, but signature vulnerability, supporting BTQ's work on Bitcoin Quantum, its quantum-safe Bitcoin architecture
designed around post-quantum cryptography and more resilient transaction design.<br>
 

* The research also strengthens BTQ's long-term case for Quantum
Proof of Work ("QPoW"), its quantum-native, classically verifiable consensus model, by showing that trying to accelerate legacy
Bitcoin mining with quantum hardware is a dead end, while consensus designed specifically for quantum systems may offer a more credible
and energy-efficient path forward.

VANCOUVER, BC, April 6, 2026 /CNW/ - BTQ Technologies Corp. ("BTQ" or the "Company") (Nasdaq: BTQ) (CBOE CA: BTQ), a global quantum technology company focused on securing mission-critical networks, today announced the publication of a landmark research paper establishing the first end-to-end physical cost estimate for using quantum computers to mine Bitcoin.

The paper, titled **"Kardashev Scale Quantum Computing for Bitcoin Mining,"** by **Pierre-Luc Dallaire-Demers**, is now available on arXiv and represents one of the most rigorous analyses to date of the real-world economics of quantum Bitcoin mining.

Public discussion around "quantum threats to Bitcoin" often conflates two very different issues: attacks on Bitcoin's elliptic-curve digital signatures, which are genuine and increasingly urgent, and quantum-accelerated mining using Grover's algorithm, whose practical severity has long been debated in theory but not rigorously costed in physical terms. This paper helps resolve that ambiguity with quantitative clarity.

"This paper does something the industry has needed for years -- it prices the quantum mining question end to end and closes it," said **Pierre-Luc Dallaire-Demers**. "To push mining into non-trivial consensus effects, one must invoke astronomical quantum fleets operating at energy scales that lie far above present-day civilization. The real cryptographic crisis is the signature vulnerability, and that clock is already ticking."

Rather than stopping at Grover's theoretical quadratic speedup, the paper introduces an open-source resource estimator that models the full quantum mining stack, including reversible double-SHA-256 oracles, surface-code magic-state distillation factories, fleet-scale qubit logistics, and the timing constraints imposed by Nakamoto consensus.

**Key Findings**

**Quantum Bitcoin mining remains impractical even in the best-case scenario**

Even under the most favorable partial-preimage setting studied, a superconducting surface-code fleet would still require approximately **10^8 physical qubits** and **10^4 megawatts** of power -- roughly comparable to the output of a large national electricity grid.

**At real Bitcoin difficulty, the requirements become astronomical**

At Bitcoin's January 2025 mainnet mining difficulty, estimated requirements rise to approximately **10^23 physical qubits** and **10^25 watts** of power -- approaching the energy output of a star.

**Grover's theoretical advantage collapses in the real world**

While Grover's algorithm offers a quadratic search advantage in theory, that benefit breaks down once oracle construction, error correction, and fleet overhead are included. In practical terms, quantum mining is not a credible near-term threat to Bitcoin's proof-of-work consensus.

**The more urgent threat is signature vulnerability**

By contrast, quantum attacks on Bitcoin's elliptic-curve signatures using Shor's algorithm remain a genuine and much more immediate concern, reinforcing the need for post-quantum cryptographic infrastructure.

**Why This Matters**

BTQ believes the distinction clarified by this paper is critical. The more relevant quantum challenge for Bitcoin and digital asset infrastructure is not the mining layer, but the authentication layer.

That view is consistent with BTQ's broader strategy.

Through **Bitcoin Quantum**, BTQ has been developing and testing a quantum-safe Bitcoin architecture designed to address vulnerabilities at the signature and transaction level. The Company previously launched the **Bitcoin Quantum testnet**, a live environment for demonstrating how Bitcoin-like systems can migrate toward post-quantum cryptographic standards, including **NIST-standardized ML-DSA signatures** and more resilient transaction designs such as **BIP 360 (Pay-to-Merkle-Root)**.

BTQ believes the findings in this paper strengthen the rationale for that work. If Grover-based mining is not a practical quantum path, then the priority shifts more clearly toward securing wallets, signatures, and authentication systems before large-scale quantum capability arrives.

At the same time, the paper supports a broader conclusion: if the quantum acceleration of classical mining collapses under real physical cost, the logical long-term alternative is not to force quantum hardware onto legacy proof-of-work systems, but to build consensus around computational tasks that quantum systems perform natively and efficiently.

That is the rationale behind BTQ's **Quantum Proof of Work (QPoW)** initiative.

Unlike Grover-based approaches that attempt to speed up classical SHA-256 mining, BTQ's QPoW is designed around quantum-native computational tasks that better match the strengths of quantum hardware from the outset. In BTQ's view, this is an important distinction. The paper shows that using quantum computers to mine classical Bitcoin more efficiently is not a practical path. QPoW, by contrast, is based on the idea that quantum systems may still play a meaningful role in consensus when the work itself is designed for quantum hardware rather than retrofitted to classical mining assumptions.

BTQ's previously published materials indicate that, in modeled comparisons, QPoW can be materially more energy efficient than equivalent classical sampling-based methods while remaining classically verifiable. This supports BTQ's broader thesis that the future of digital money may require not only quantum-safe authentication, but also new consensus architectures designed specifically for the capabilities of quantum machines.

**Performance Comparison**

**Grover-based Bitcoin mining**

* Requires approximately **10^8 qubits** and **10^4 MW** even
in a highly favorable scenario

* Scales to approximately **10^23 qubits** and **10^25 W**
at Bitcoin's January 2025 mainnet difficulty

* Conclusion: **theoretically interesting, physically and economically impractical**

**BTQ's Bitcoin Quantum**

* Focused on the real near-term issue: **post-quantum authentication and signature security**

* Demonstrates how Bitcoin-like systems can migrate to **quantum-safe cryptography**

* Provides a live test environment for post-quantum Bitcoin infrastructure

**BTQ's Quantum Proof of Work (QPoW)**

* Built as a **quantum-native consensus model**, not a retrofit
of legacy mining

* Designed around computational tasks better suited to quantum hardware

* Designed to be **classically verifiable**

* In BTQ's published modeled comparison, a quantum sampler consumes
approximately **0.25 kWh** over a 10-minute block interval, versus approximately **390 kWh per block per miner** for a classical
equivalent sampling-based setup, implying an energy advantage of approximately **1,560x**

* Conclusion: **a more credible long-term framework for quantum-era consensus than attempting to accelerate classical Bitcoin mining**

"Quantum computing may reshape digital money, but not by making legacy Bitcoin mining practical," said **Christopher Tam, President and Head of Innovation at BTQ Technologies**. "What matters now is securing authentication and preparing Bitcoin-like systems for the post-quantum era. Longer term, this research also strengthens the case for quantum-native consensus architectures such as QPoW, where the work is designed for quantum systems from the start rather than forced onto a classical framework."

**Key Takeaways**

* Quantum mining is not a near-term issue for Bitcoin

* Signature vulnerability remains the more urgent cryptographic
challenge

* Bitcoin Quantum provides a practical framework for post-quantum
Bitcoin migration

* QPoW strengthens BTQ's long-term position around more energy-efficient,
quantum-native consensus systems

The paper, **"Kardashev Scale Quantum Computing for Bitcoin Mining,"** is now available on arXiv.

**About BTQ**

BTQ Technologies Corp. (Nasdaq: BTQ \| Cboe CA: BTQ) is a quantum technology company focused on accelerating the transition from classical networks to the quantum internet. Backed by a broad patent portfolio and deep technical expertise, BTQ is advancing a full-stack, neutral-atom quantum computing platform spanning hardware, middleware, and post-quantum security solutions for finance, telecommunications, logistics, life sciences, and defense.

Connect with BTQ: Website \| LinkedIn \| X/Twitter

ON BEHALF OF THE BOARD OF DIRECTORS<br> Olivier Roussy Newton<br> CEO, Chairman

*Neither Cboe Canada nor its Regulation Services Provider accepts responsibility for the adequacy or accuracy of this release.*

***Forward Looking Information***

*Certain statements herein contain forward-looking statements and forward-looking information within the meaning of applicable securities laws. Such forward-looking statements or information include but are not limited to statements or information with respect to the business plans of the Company, including with respect to its research partnerships, and anticipated markets in which the Company may be listing its common shares. Forward-looking statements or information often can be identified by the use of words such as "anticipate", "intend", "expect", "plan" or "may" and the variations of these words are intended to identify forward-looking statements and information.*

*The Company has made numerous assumptions including among other things, assumptions about general business and economic conditions, the development of post-quantum algorithms and quantum vulnerabilities, and the quantum computing industry generally. The foregoing list of assumptions is not exhaustive.*

*Although management of the Company believes that the assumptions made and the expectations represented by such statements or information are reasonable, there can be no assurance that forward-looking statements or information herein will prove to be accurate. Forward-looking statements and information are based on assumptions and involve known and unknown risks which may cause actual results to be materially different from any future results, expressed or implied, by such forward-looking statements or information. These factors include risks relating to: the availability of financing for the Company; business and economic conditions in the post-quantum and encryption computing industries generally; the speculative nature of the Company's research and development programs; the supply and demand for labour and technological post-quantum and encryption technology; unanticipated events related to regulatory and licensing matters and environmental matters; changes in general economic conditions or conditions in the financial markets; changes in laws (including regulations respecting blockchains); risks related to the direct and indirect impact of COVID-19 including, but not limited to, its impact on general economic conditions, the ability to obtain financing as required, and causing potential delays to research and development activities; and other risk factors as detailed from time to time. The Company does not undertake to update any forward-looking information, except in accordance with applicable securities laws.*

View original content to download multimedia:https://www.prnewswire.com/news-releases/btq-technologies-publishes-kardashev-scale-quantum-computing-for-bitcoin-mining-302734513.html

SOURCE BTQ Technologies Corp.

View original content to download multimedia: http://www.newswire.ca/en/releases/archive/April 2026/06/c2063.html

%CIK: 0001821866

**For further information:** For further information: E: desk@btq.com; Bill Mitoulas, Investor Relations, T: +1.416.479.9547, E: bill@btq.com; Media Contact: BTQ@kcsa.com

CO: BTQ Technologies Corp.

CNW 07:30e 06-APR-26