On March 18th, Chetan Nayak, a physicist leading Microsofts quantum team, presented new data on the companys quantum computing chip at the American Physical Societys Global Physics Summit in Anaheim, California. It was meant to calm a raging debate among physicists, but researchers remain skeptical of the results. I never felt like there would be one moment when everyone is fully convinced, Nayak told Nature in a March 18th article. The controversy centers on Microsofts February claim that it had built a new type of quantum hardware a topological qubit, made from a pattern of electrons on a tiny wire. Microsoft claimed that the qubit is less prone to errors. That would make quantum computers easier to scale up to something big enough to actually be useful. But in the journal article accompanying the release, the editors wrote that Microsoft had not conclusively shown the electrons forming the signature pattern, known as Majorana zero modes. In 2021, Microsoft had to retract a similar claim. When quantum computers become useful, ordinary consumers shouldnt expect them as personal devices.Discourse and skepticism are all part of the scientific process, Microsoft spokesperson Craig Cincotta tells The Verge. He points to additional improvements since that accompanying article, where Microsoft says the team controlled and measured a specific aspect of the qubit.The newest data Microsoft presented on Tuesday is just noise, says physicist Sergey Frolov of the University of Pittsburgh. (On Tuesday, Nayak acknowledged that the signal was hard to see because of electrical noise.) In a statement, Nayak tells The Verge that Microsoft is confident in its device. It is clear that the interest and excitement level are very high, he says. On top of controversy, the industry suffers from hype. Quantum computer champions say that they will revolutionize materials science, encryption, and finance. Theoretical research indicates that they could one day beat regular computers in certain time-consuming tasks and open new realms of computing. But the timeline is uncertain. In January, Nvidias Jensen Huang expressed doubt that commercial quantum computing would exist in 15 years, triggering quantum computing stocks to fall. He tried to walk those comments back on March 20th, when he hosted Quantum Day at Nvidias GTC conference, but quantum-related stocks fell again.Nevertheless, quantum computing researchers have been hard at work. Over the recent months, Google, Amazon, and several startups have announced a series of incremental improvements. Were left to wonder how much longer consumers will have to wait for quantum computings killer applications. Are quantum computers coming to your cloud or phone in the future? What and who are they for?Discourse and skepticism are all part of the scientific process.Quantum computers wont be able to tackle anything useful for at least another decade, says physicist Andrea Morello of the University of New South Wales in Australia. And thats if investors dont lose patience and jump ship. The technology remains a full-stack problem, from engineering the materials to make the qubits, to connecting the qubits together, to manufacturing the chips at scale and not to mention software. Investors are sticking around because the payoff could be huge. Quantum computers offer a completely new paradigm for computing. Unlike a conventional computer, which encodes information as binary ones and zeros, a quantum computer represents information as a probability of one and zero, known as a superposition. Superposition is a concept from quantum mechanics: for example, an electron can exist as a superposition, or probability, of multiple locations. You can also think of superposition like a coin flipping in the air. Before it lands, it is neither heads nor tails, but in a superposition state of both. Similarly, the qubit can represent information as some probability of both one and zero. Researchers make physical qubits from different materials for Google, Amazon, and IBM, each qubit is a small superconducting circuit; notable startups are using ions, atoms, and photons as qubits. At this point, its not clear what material is best.All qubits obey the mathematics of quantum mechanics. So do molecules. Thats why experts predict that an early useful application of quantum computers could be performing accurate and fast chemistry simulations, for discovering new materials for better batteries, more climate-friendly fertilizers, and new medical drugs. Currently, to simulate these reactions, scientists rely on supercomputers, which are inexact and slow. A quantum speedup could upend other industries, as well. Banks are investigating quantum optimization algorithms for improving financial forecasts. Quantum algorithms could make AI algorithms more energy-efficient. They should also be able to break existing encryption methods; the prediction has spurred research into more robust forms of cryptography. But first, researchers need to reduce the errors in a quantum computer overall and make them larger.And when quantum computers become useful, ordinary consumers shouldnt expect them as personal devices. Experts currently envision future quantum computers as a specialized chip in a supercomputer or as a data center. Either way, users would access the machine through the cloud. Its also unlikely that quantum computers will be useful for everyday tasks like word processing or internet browsing. Its proposed applications are largely specialized for technical fields such as pharmaceuticals and finance.Recent progress has been heartening. The first quantum computers of note, built in the last decade, were too error-ridden to execute useful algorithms. Lately, researchers have figured out how to correct computing errors by encoding a single unit of information in multiple physical qubits instead of one. Using this approach, Google and Amazon have shown that their quantum computers can more reliably store information without the machines becoming more error-prone as they get bigger. The results could pave the way toward larger, useful quantum computers. Still, a leap for physicists is an inch forward for the rest of us. Google and Amazons quantum memory only stored a single unit of quantum information, known as a logical qubit. A useful quantum computer will need thousands, perhaps a million physical qubits, corresponding to hundreds or thousands of logical qubits. Researchers need to reduce the number of physical qubits to encode a unit of information. In Amazons recent announcement, they only needed nine physical qubits per unit of information, compared to the 105 physical qubits that Google needed. We are a long way away from the big, mind-blowing, world-changing results and applications, says Morello.Its a very delicate balance. It has a chance of either people getting bored, or getting overexcited and really angryThe US, European Union, and the UK governments have each pledged funding in the billions to develop quantum computing. For the US, the main rival is China, which has poured $15 billion of public funding into quantum computing, according to the Mercator Institute for China Studies, a Germany-based think tank. Cash has been flowing in the private sector, as well. Crunchbase reported that quantum computing received $1.5 billion in venture funding worldwide in 2024, an all-time high compared to the previous record of $963 million in 2022.But building the technology is difficult. Researchers have to show progress to keep their investors happy, while also tempering their expectations to keep them patient. The worry is a potential quantum winter, where overhype leads to inflated expectations and disappointment, and investors withdraw funding. AI development underwent such cooling eras. Researchers made the first AI chatbot in the 1960s, but the field was overly optimistic about the speed of development. When they didnt deliver, funders withdrew, leading to two AI winters from the late 60s to the mid-90s.People would prefer to keep a low-enough profile to be kind of cool and a little bit buzzy, so that they can just continue reaping the benefits slowly, Frolov says. But I think its a very delicate balance. It has a chance of either people getting bored, or getting overexcited and really angry when quantum computers dont deliver according to their expectations.The anxiety over losing their funders trust has led to physicists current furor over Microsofts claims. Frolov, along with several other researchers, has spent years calling out what he said were discrepancies between Microsofts announcements and their experimental data. The community seems to be more receptive to critiques lately, he says.Such are the growing pains involved in building a quantum computer. Its potential remains alluring, but the finish line is still far away. In the meantime, physicists will continue squabbling over incremental progress as long as the cash keeps flowing. See More: Tech