Quantum computing stocks surge 2023–2025; IonQ, Rigetti lead; IBM, Microsoft, Google push milestones into 2026.
Sectors & Industries
October 23, 2025
Table of Contents
Quantum computing is rapidly evolving from a lab experiment into a nascent industry, with 2025 marking an inflection point in investment and innovation. Enthusiasm has driven quantum computing stocks sharply higher over the past year – several pure-play quantum companies saw their share prices surge hundreds or even thousands of percent in 2023–2025. This rally reflects optimism about quantum technology’s transformative long-term potential (Boston Consulting Group estimates $450–850 billion in economic value by 2040), even as near-term revenues remain modest.
As we approach 2026, a handful of U.S.-based companies stand out for credible progress and significant investment in quantum computing. These include both pure-play quantum computing startups focused on quantum processors, as well as tech giants treating quantum as a strategic R&D priority. Below, we profile the top publicly traded U.S. companies leading in quantum computing – highlighting each company’s focus in quantum, recent developments (2023–2025), partnerships, analyst sentiment for 2026, and key metrics like market capitalization and stock performance. A comparison table is provided at the end to summarize their market caps, quantum focus areas, and performance outlook.
These are dedicated quantum technology firms whose core business is building quantum computers or related quantum systems. They offer the most direct exposure to quantum computing’s growth, though they tend to be early-stage with high volatility and risk.
IonQ is a Maryland-based pure-play quantum computing company, founded in 2015 as a spin-out from academic research. It specializes in trapped-ion quantum processors, which use electrically trapped ytterbium ions as qubits. This approach offers long coherence times and high fidelity at near-room temperatures, avoiding the extreme cryogenics required by superconducting qubits. IonQ provides access to its quantum systems through cloud platforms like Amazon Braket, Microsoft Azure, and Google Cloud, positioning itself as a leader in quantum cloud services.
IonQ has aggressively expanded its technological capabilities and market presence. In 2025 the company achieved a record “algorithmic qubit” performance score, demonstrating improving quantum circuit fidelity on its latest hardware. IonQ also embarked on a buying spree to broaden its quantum tech portfolio – over 2024–2025 it acquired several companies including Oxford Ionics (ion-trap chip technology) and Vector Atomic (quantum precision sensing). The Vector Atomic acquisition (completed in Oct 2025) brought IonQ new capabilities in atomic clocks and inertial quantum sensors (useful for GPS-like navigation and defense applications). IonQ also bought stakes in quantum networking and encryption firms (e.g. Qubitekk, ID Quantique) to build a full-stack quantum platform covering computing, networking, and sensing. These moves, alongside internal R&D, have attracted substantial contracts – IonQ secured over $100 million in commercial and government deals (including U.S. Air Force and DARPA projects). To fund growth, IonQ raised significant capital: in 2023–25 it issued equity and raised roughly $1 billion, bolstering its cash reserves to about $1.6 billion. Notably, in mid-2025 IonQ announced a $2 billion equity investment from institutional backers at a premium share price, materially extending its cash runway. This deep-pocketed support (including participation by JPMorgan and Susquehanna’s investing arm) signaled increased Wall Street confidence in IonQ.
IonQ is viewed as one of the most promising pure-plays in quantum computing, but also one of the most speculative. Analysts project rapid revenue growth – on the order of +87% in 2026 – as IonQ begins scaling sales of its systems and cloud services. The company’s valuation has ballooned to reflect its perceived long-term potential: by late 2025 IonQ’s market capitalization reached roughly $20–22 billion, after an astounding 712% share price increase over the prior year m. This far outstrips IonQ’s current revenues (2025 full-year revenue guidance was only ~$85 million), so bullish investors are effectively “pricing in” future breakthroughs. Optimism centers on IonQ’s technological edge – its trapped-ion systems have demonstrated high fidelity and the company targets a broad “quantum platform” spanning computing and sensing that could scale faster than rivals.
That said, some analysts urge caution given IonQ’s steep valuation and ongoing losses (the company remains unprofitable, reinvesting heavily in R&D). Any delays in technical milestones or commercialization could spark pullbacks in the stock. Overall, IonQ enters 2026 as a high-growth quantum leader with strong momentum and investor backing, but also as a volatile bet hinging on the realization of quantum advantage in coming years.
Rigetti Computing is a California-based quantum computing company (founded 2013) focused on superconducting qubit processors. Rigetti’s qubits are made from superconducting circuits that operate at millikelvin temperatures. The company is developing a scalable architecture using a modular “chiplet” design, which links multiple small quantum chips into one larger processor. Rigetti offers its quantum computers through its own Quantum Cloud Services platform and through cloud partners like AWS and Azure. This makes Rigetti a direct competitor to IBM and Google in superconducting quantum hardware, albeit at a much earlier stage.
After a challenging start as a public company (Rigetti went public via SPAC in 2022), the past year brought significant technical and commercial milestones. In 2025 Rigetti launched a new 36-qubit superconducting processor featuring improved two-qubit gate fidelities of ~99.5% – a critical step toward running useful algorithms. The company also won a notable 3-year contract with the U.S. Air Force (AFRL) to jointly develop quantum networking technology, which triggered a stock jump on the news. In late 2025, Rigetti announced it had secured purchase orders for two of its “Novera” quantum computers, to be delivered in 2026. One buyer is an Asia-based technology manufacturer and the other a California AI/physics startup; both will use Rigetti’s systems for internal R&D and error-correction experimentation. These were Rigetti’s first known commercial system sales, and although the dollar amounts were small (~$5.7 million total), the market reacted very positively. Rigetti also formed a strategic partnership with Quanta Computer (Taiwan), which involved over $135 million in joint investments – potentially to support manufacturing and scaling of Rigetti’s chip technology. With these deals and a cash balance over $500 million, Rigetti has secured a multi-year runway for its ambitious roadmap.
Rigetti’s stock has been on a roller coaster, reflecting both excitement and risk. In 2025, Rigetti shares skyrocketed – rising over 5,900% year-on-year at one point – as quantum euphoria swept up speculative investors. (The stock climbed from penny-stock levels to around $30–40 by late 2025.) By October 2025 Rigetti’s market cap fluctuated around $10–15 billion, despite quarterly revenue of only ~$1–2 million. Analysts forecast triple-digit percentage revenue growth for 2026 (~+161%) as Rigetti begins to recognize government contract revenue and potential early sales. However, they also underscore that profitability remains distant – Rigetti continues to incur heavy R&D and infrastructure costs, with annual losses far exceeding revenue. The stock’s huge 2025 gains could prove fragile if technical progress stalls. Still, Rigetti’s recent achievements (higher fidelity chips, initial system orders, government support) lend it credibility as one of the leading U.S. quantum hardware startups. Going into 2026, investor sentiment is cautiously optimistic: Rigetti has a clear roadmap to scale its superconducting tech, but it must execute on improving qubit quality and scaling up qubit count to justify its rich valuation. This makes Rigetti a high-risk/high-upside stock – very sensitive to technical milestones and partnership wins in the year ahead.
Honeywell is a Fortune 100 industrial conglomerate, but it has become an unlikely powerhouse in quantum computing through its majority ownership of Quantinuum – one of the world’s leading quantum computing firms. Quantinuum was formed in 2021 by merging Honeywell’s quantum hardware division with Cambridge Quantum. It builds trapped-ion quantum computers (the H-Series models) and develops quantum software solutions. Honeywell/Quantinuum’s approach is similar to IonQ’s (trapped ions), emphasizing high-fidelity qubits. Quantinuum pairs this with an enterprise software stack (quantum algorithms, development tools like TKET) aimed at real-world applications in chemistry, cryptography, and more. Honeywell currently owns ~54% of Quantinuum, so Honeywell stock offers indirect exposure to one of the most advanced quantum platforms.
Under Honeywell’s umbrella, Quantinuum has achieved several technical milestones. Notably, it set industry records for quantum performance: in 2023–24, Quantinuum’s H1 and H2 ion-trap systems achieved ever-higher Quantum Volume benchmarks, culminating in a quantum volume of 8,388,608 (2^23) in 2025 – the highest recorded to date. This reflects extraordinary overall system capability (combining qubit count, coherence, and error rates). Quantinuum also demonstrated one of the first “logical qubits” (error-corrected qubits formed from multiple physical qubits) on a commercial device, highlighting progress toward fault-tolerant computing. Throughout 2023–2025, Quantinuum expanded its customer and partner base for pilot quantum applications – collaborating with pharmaceutical companies for drug discovery, with financial institutions on quantum encryption, and with governments on defense and cybersecurity use cases. Honeywell has continued to invest in the quantum unit, and in mid-2025 Honeywell’s CEO Vimal Kapoor indicated that strategic options for Quantinuum are being considered, including a possible spinoff or public listing. In fact, Honeywell announced plans to break up into three separate companies by 2026, and a Quantinuum IPO in 2024–2026 is a strong possibility given Quantinuum’s stature in the field.
Honeywell’s core business (aerospace, automation, materials) drives its stock performance, so quantum is not yet a significant financial factor. Honeywell’s stock was roughly flat in 2025 (market cap around $130 billion), as industrial earnings faced macro headwinds. However, investors view Honeywell’s stake in Quantinuum as a valuable long-term asset. Quantinuum is often ranked among the top global quantum computing firms by qubit quality and commercialization progress, on par with IBM and Google’s efforts. If Quantinuum were spun out, it could unlock shareholder value (analysts have speculated Quantinuum might command a multibillion-dollar valuation on its own). For 2026, the outlook is that Honeywell will continue supporting Quantinuum’s R&D (e.g. scaling trapped-ion systems to higher qubit counts) while possibly prepping it for an IPO. Any concrete news on a Quantinuum spinoff or major quantum customer wins could positively impact Honeywell shares. Overall, Honeywell provides a lower-risk, diversified way to invest in quantum: it’s a profitable, dividend-paying company where quantum initiatives are a small but strategic piece. The trade-off is that quantum’s success won’t dramatically move Honeywell’s near-term financials, but Honeywell’s stock offers stability and a “hidden” quantum play that could pay off longer-term as Quantinuum grows.
(Note: Another U.S.-based pure-play is Quantum Computing Inc. (NASDAQ: QUBT), a small-cap company pursuing photonic quantum hardware and algorithms. QCI’s stock surged in 2025 (market cap ~$4 billion) on speculative fever, but with only ~$0.3 million revenue and unproven tech, it remains a very high-risk prospect. Investors may watch QUBT, but it is less established than IonQ or Rigetti.)
Several large U.S. technology companies have substantial quantum computing R&D programs. These conglomerates offer “safer” exposure to quantum’s future, since their diversified businesses can fund long-term quantum projects without betting the company on them. While quantum is a tiny piece of their current revenues, these firms see it as strategically critical. Investors might consider these stocks for their combination of stable earnings and quantum upside.
IBM is a pioneer in quantum computing – it launched the IBM Q program in 2016 and was the first to put quantum computers on the cloud for public use. IBM’s focus is on superconducting qubit processors, and it has built an extensive full-stack ecosystem (hardware, software, and services). IBM’s quantum roadmap emphasizes scaling up qubit count and improving error correction. The company currently offers 127-qubit and 433-qubit superconducting systems via the IBM Quantum Cloud, and it has prototyped a 1,121-qubit processor (“Condor”) targeting deployment around 2024–2025. IBM also develops quantum software (Qiskit open-source framework) and runs the IBM Quantum Network, collaborating with dozens of research institutions and enterprise partners to explore quantum applications.
IBM has steadily executed on its quantum technology roadmap. In late 2022 it debuted “Osprey” (433 qubits), then in 2023 IBM unveiled progress toward “Condor” (~1,121 qubits) and beyond. IBM’s researchers have also achieved advances in error mitigation and noise reduction. In 2023, for example, IBM demonstrated an error-suppression technique that improved reliability as qubit count grew, a step toward practical quantum error correction. Looking ahead, IBM outlined a vision for “quantum-centric supercomputing” by 2025+, involving modular quantum processors integrated with classical supercomputers. IBM’s quantum roadmap (dubbed Project) includes an ambitious goal of delivering over 1,000 physical qubits by 2025 and eventually a fault-tolerant quantum system with ~200 logical qubits by 2029. Beyond hardware, IBM committed $500 million via IBM Ventures to invest in quantum startups and foster a broader ecosystem. On the commercial side, IBM has attracted early adopters across industries: for instance, Cleveland Clinic installed an on-premises IBM quantum computer in 2023 for healthcare research (one of the first deployments outside IBM’s lab). IBM also partnered with cloud rivals – notably Microsoft Azure now offers IBM Quantum systems to Azure users (announced in 2023), underscoring IBM’s reputation in quantum hardware. These developments solidify IBM’s role as a leading provider of quantum infrastructure.
As a $250+ billion company, IBM provides a stable, lower-risk investment compared to pure plays – it’s profitable and pays dividends, with its quantum efforts funded by the rest of the business. Analysts generally have a neutral-to-positive outlook on IBM’s stock, citing its turnaround in cloud/software and consistent cash flows; any quantum “win” would be icing on the cake. In 2025 IBM’s stock climbed ~27%, bringing its market cap to about $260 billion, as investors appreciated its mix of legacy enterprise business and emerging tech like AI and quantum. For 2026, IBM is expected to continue incremental progress in quantum R&D rather than any dramatic revenue from quantum (which is still in an early, pre-commercial phase for IBM). Key things to watch include IBM potentially achieving the 1,000-qubit milestone, advancing quantum error-correction experiments, and expanding its IBM Quantum Network client base. Reaching technical milestones could bolster IBM’s thought leadership in tech (and generate positive press), but meaningful quantum-derived revenue for IBM is likely years away. Thus, analyst sentiment treats IBM’s quantum program as a long-term option value – important for staying ahead in tech, but not a major factor in 2026 earnings. Overall, IBM remains a cornerstone “quantum stock” to watch due to its comprehensive approach and decades of expertise, offering a balanced way to invest in quantum’s growth within a mature company.
Alphabet (Google’s parent company) is a technology behemoth with a broad research agenda; Google Quantum AI (QAI) is its division dedicated to quantum computing. Google’s quantum program focuses on superconducting qubit processors, similar to IBM’s approach. Google aims to build a fault-tolerant quantum computer capable of tackling problems beyond classical reach by the end of this decade. It made headlines in 2019 for achieving “quantum supremacy” – demonstrating a 53-qubit processor (“Sycamore”) that performed a specific calculation faster than a supercomputer could. Alphabet’s quantum effort is part of its “Other Bets” (long-term projects) and is centered at the Google Quantum AI campus in Santa Barbara, CA.
Google has continued to push the frontier of quantum hardware. In 2023, it unveiled a new research chip (“Willow”) with 105 superconducting qubits, and more importantly, showed exponential error reduction by scaling up the number of qubits in error-correcting codes. In practical terms, Google demonstrated that combining multiple physical qubits into a logical qubit can drastically suppress error rates – a key proof-of-concept for building large error-corrected machines. This was a significant step toward a working quantum error correction system. Google has also been exploring alternative qubit designs (e.g., experimenting with beyond-superconducting approaches in research collaborations) and advancing its software toolkit (Cirq, etc.).
On the application front, Google in 2023 used its quantum processors to simulate certain chemical reactions and to run small instances of optimization problems, often in partnership with academia. While Google doesn’t sell quantum services commercially yet, it provides access to its processors for research via cloud and partners (e.g., through Google Cloud’s AI/Quantum programs). Notably, Google has predicted a timeline where useful, large-scale quantum computing applications could emerge by ~2029–2030. This long-term vision was reiterated by Alphabet’s CEO and the Quantum AI team, who see the latter half of the 2020s as transitioning from demos to real-world utility. To bolster this work, Alphabet has invested in quantum talent and even in quantum startups (through its CapitalG and GV venture arms). For example, Google has collaborations with universities and national labs (like a longstanding partnership with NASA on quantum algorithms).
Alphabet is another “low-risk quantum play” in that its core business (online advertising, cloud services) dwarfs its quantum spending. With a market cap around $3 trillion in late 2025, Alphabet’s stock movements are driven by search, YouTube, Android, AI, etc., not quantum news. That said, Google’s clear technical leadership in quantum research is viewed as strategically important. It suggests Alphabet could be among the first to achieve quantum breakthroughs that might supercharge its AI and cloud offerings in the future. Analysts generally remain bullish on Alphabet for its core fundamentals; quantum R&D is usually mentioned as a positive “moonshot” initiative but without immediate financial impact. In 2025, Alphabet shares rose significantly (market cap +40–50% year-over-year) thanks to strength in AI and cloud – quantum’s contribution was intangible, mostly in demonstrating Google’s innovation edge.
Going into 2026, observers will watch for Google QAI to hit new milestones – perhaps scaling to a few hundred physical qubits, or showing the first logical qubit with low error rates. Google has also hinted at expanding quantum collaborations (with more enterprise partners testing its hardware on real problems). Reaching a practical “quantum advantage” (solving a useful problem faster than classical computers) is a key inflection point that Google is chasing, possibly in the next couple of years. If Google achieves that, it could further cement Alphabet’s reputation as a tech leader (and potentially give its cloud business a unique selling point). In summary, Alphabet offers a combination of strong financial performance and a deep long-term bet on quantum computing – making it a core holding for many tech investors and a company to watch for quantum innovation in 2026.
Microsoft is a $3+ trillion tech giant known for software and cloud computing (Azure). It has a distinctive approach to quantum computing: Microsoft’s research focuses on developing topological qubits – an exotic qubit type theorized to be more stable by design, using quasiparticles called Majorana fermions. This approach has proven exceedingly challenging, but Microsoft believes it could yield qubits with far lower error rates. In parallel, Microsoft operates Azure Quantum, a cloud service that gives users access to various quantum hardware back-ends (from partners like IonQ, Quantinuum, and Rigetti) as well as quantum simulators and Microsoft’s own quantum software (e.g. the Q# programming language and Azure Quantum Elements for chemistry). In essence, Microsoft is building the platform and tools for quantum computing today, while pursuing a potentially revolutionary hardware design for tomorrow.
In 2022–2023, Microsoft announced a significant breakthrough in its quest for topological qubits: it produced experimental evidence of Majorana zero modes – a prerequisite for topological quantum computation – on nanoscale devices, bolstering confidence that topological qubits are feasible. By 2025, Microsoft had developed a prototype “Majorana-based qubit” and was working to demonstrate its stability and braiding operations (the processes that would make it a logical qubit). The company has set an aspirational target of scaling to a million qubits in a fault-tolerant quantum computer using this approach, though that is likely a decade out. Meanwhile, Microsoft’s Azure Quantum has grown into a rich ecosystem: Microsoft added more hardware partners (like Pasqal’s neutral-atom QPUs and others) and introduced an integrated quantum chemistry suite in 2023 to attract enterprise users. Azure Quantum has been used in research collaborations – e.g., with JPMorgan for portfolio optimization experiments and with Volkswagen for traffic flow optimization. In 2025 Microsoft announced “Azure Quantum Elements”, leveraging quantum-inspired algorithms on Azure’s classical cloud to tackle chemistry problems while true quantum hardware matures.
Microsoft is effectively positioning Azure to be the go-to cloud for quantum so that as hardware improves (either its own or partners’), customers are already on-boarded. On the partnerships front, Microsoft has alliances with academic labs (e.g. University of Copenhagen’s Niels Bohr Institute for quantum materials) and government programs (it is part of the U.S. Quantum Economic Development Consortium). These efforts underscore Microsoft’s long-term commitment to a quantum-ready future.
Microsoft is highly regarded by investors for its dominant cloud computing business and AI initiatives; its stock hit all-time highs in 2025, with market cap around $3.8 trillion. Quantum computing, while not moving the needle financially in the near term, is seen as a natural extension of Microsoft’s Azure cloud strategy. Analysts appreciate that Microsoft provides exposure to quantum through Azure without the company needing immediate returns – essentially, Microsoft can incubate quantum tech patiently. For 2026, the expectation is that Microsoft will continue to advance its topological qubit research (perhaps finally demonstrating a rudimentary topological qubit in operation). Any concrete success there would be a game-changer, as it might pave the way to more scalable qubits. However, given the uncertainty, most observers focus more on Azure Quantum’s growth: we’ll likely see Microsoft integrate more quantum hardware options and grow its quantum developer tools.
The company’s pragmatic approach of offering useful “quantum-inspired” solutions today (running on classical hardware) could also start to generate revenue by attracting customers interested in quantum algorithms for optimization or chemistry. In terms of stock outlook, Microsoft remains a stable growth pick driven by cloud and enterprise software; quantum progress would further strengthen the narrative that Microsoft’s cloud is future-proof. Thus, as a quantum stock, Microsoft is a long-term play with minimal downside – it offers the stability of a mega-cap, plus the upside that comes if Microsoft’s bet on topological quantum computing eventually pays off. Investors in 2026 will be watching Microsoft’s scientific announcements and Azure Quantum updates as indicators of how this bet is unfolding.
Amazon, best known for e-commerce and cloud services (AWS), has also been investing in quantum computing as part of its mission to stay at the forefront of computing technology. Amazon’s primary quantum initiative is Amazon Braket, a cloud service launched in 2019 that allows developers to experiment with quantum algorithms on various quantum hardware platforms. Through Braket, Amazon provides on-demand access to machines from partners (like IonQ’s ion traps, Rigetti’s superconducting qubits, D-Wave’s quantum annealers, etc.) as well as to Amazon’s own high-performance quantum simulators. In addition, Amazon has an internal research and engineering program at the AWS Center for Quantum Computing (adjacent to Caltech), where it is reportedly working on its own quantum processor designs (the specifics are not public, but it’s believed Amazon is exploring superconducting qubits and possibly other modalities).
While Amazon keeps its proprietary R&D relatively low-key, there have been some notable signals of progress. In 2025, Amazon revealed that its hardware team developed a prototype quantum processor codenamed “Ocelot”, aimed at improving error-correction efficiency. Details were limited, but this likely refers to Amazon creating a chip or architecture to test quantum error correction methods (potentially a logical qubit demonstration). This suggests Amazon is no longer solely relying on partners – it’s actively building in-house quantum hardware, although it may be years from a competitive device. On the cloud side, Amazon Braket expanded its offerings: it added new third-party machines (for instance, QuEra’s neutral-atom systems and Oxford Quantum Circuits’ device were integrated in 2023–24). Amazon also introduced Braket Hybrid Jobs, enabling seamless hybrid classical-quantum workflows on AWS, and Braket Arrow, a managed service for running error mitigation techniques.
These enhancements aim to make AWS the preferred cloud for researchers and startups working on quantum algorithms. Amazon has engaged in notable partnerships too – for example, it collaborated with Singtel in 2024 to integrate post-quantum cryptography and quantum key distribution for telecom networks, underscoring a push in quantum security. Moreover, Amazon’s Quantum Solutions Lab has been working with customers like banks and automakers to explore near-term quantum use cases (often using classical simulators or quantum-inspired algorithms on AWS infrastructure). All told, Amazon is weaving quantum into its cloud ecosystem, ensuring that whenever quantum computing matures, AWS will be ready to serve that demand.
Amazon’s stock is heavily driven by its retail and AWS cloud performance; at roughly $2.3 trillion market cap in late 2025, Amazon’s quantum ventures are a tiny footnote for Wall Street. Nevertheless, quantum computing is strategically important for AWS’s long-term competitiveness against Azure and Google Cloud. Analysts recognize that Amazon must invest in future tech like quantum to offer a full spectrum of cloud services. In 2026, Amazon will likely continue enhancing Braket (more features, more partner machines) and could possibly announce further progress on its own quantum hardware. Any breakthrough – say Amazon unveiling a multiqubit prototype or a specific quantum advantage achieved on AWS – would generate positive buzz, though it’s not expected to impact near-term financials. Amazon is also focusing on post-quantum cryptography (to secure data against future quantum attacks), which could become an important service as new encryption standards roll out.
For investors, Amazon offers exposure to quantum in a measured, indirect way: you get a stake in one of the fastest-growing cloud providers, which is quietly preparing for the quantum era. The performance outlook for 2026 remains tied to AWS’s overall growth (which is strong, ~20% year over year), with quantum R&D being part of AWS’s R&D budget. If one is “watching” Amazon as a quantum stock, key things to monitor include any news from the AWS Quantum Computing Center, new qubit technologies revealed, or major customer case studies via Braket. In summary, Amazon is positioning to be a quantum cloud leader, and while it won’t deliver quantum-driven revenues in 2026, its continued investment ensures it won’t be left behind in the quantum race.
Quantum names don’t wait for earnings season. They spike on breakthrough announcements, government contracts, partnerships, funding rounds, and research milestones — and those moves happen fast.
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Quantum computing may still be in its early stages, but the groundwork for commercialization is clearly being laid. Companies like IonQ and Rigetti are proving that small, specialized firms can capture Wall Street’s imagination with tangible progress, while giants like IBM, Microsoft, and Google continue building the infrastructure that will eventually support an entire quantum economy.
As breakthroughs accelerate, 2026 could be a pivotal year where quantum computing begins shifting from research labs into enterprise and defense applications — with the potential to reshape industries ranging from AI to cybersecurity.
For investors, the message is clear: quantum stocks don’t move on earnings, they move on events. Knowing when a key milestone hits — a new patent, partnership, or government
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