In this article, we will take a look at the 15 biggest quantum computing companies in the world. If you want to see more companies in this selection, go to the 5 Biggest Quantum Computing Companies in the World.

The quantum computing industry is a rapidly evolving and expanding field with significant potential for growth and development in the coming years. According to Precedence Research, the size of the quantum computing industry is expected to grow by over 12 times from $10.13 billion in 2022 to $125 billion by the end of this decade. This would reflect a compound annual growth rate of 36.9% from 2022 to 2030. There has been a noteworthy increase in investment in the quantum computing industry in recent years, with governments, corporations, and venture capital firms all pouring funds into the development of quantum computing hardware, software, and applications.

As the demand for large-scale data analysis and simulation in the industry increases, quantum computing hardware and software development have become crucial. Notable startups in this sector, including Xanadu, ColdQuanta, and QC Ware, along with well-established corporations such as Alphabet Inc. (NASDAQ:GOOGL), Microsoft Corporation (NASDAQ:MSFT), Amazon.com, Inc. (NASDAQ:AMZN), International Business Machines Corporation (NYSE:IBM), D-Wave Systems (NYSE:QBTS), and IonQ, Inc. (NYSE:IONQ) are playing an important role in advancing quantum computing hardware and software. These companies have made significant strides in improving the stability, coherence, and number of qubits, which is a crucial step toward achieving large-scale quantum computing capabilities.

McKinsey has labelled quantum computing as one of the next big trends in the field of technology. Quantum computing, which is just one facet of the broader domain of quantum technology, holds significant promise and is projected to contribute approximately $1.3 trillion in value by the year 2035. In the coming years, the key players in the quantum computing industry are expected to progressively enhance the qubit capacity of their computers. However, this progress is anticipated to be gradual. According to McKinsey's estimation, by 2030, the number of operational quantum computers is expected to reach approximately 5,000 only. Furthermore, the development of hardware and software capable of handling the most intricate problems may not materialize until 2035 or even later. This projected timeline underscores the challenges involved in advancing quantum computing technology to its full potential.

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Currently, prominent Wall Street banks are at the forefront of exploring the potential of quantum technology. A researcher from Goldman Sachs stated in January 2020 that quantum computing has the capacity to become a crucial technology. In addition to Goldman Sachs, other major players in the financial industry, such as JPMorgan and Citigroup, have also established their own quantum computing initiatives and have made investments in quantum computing startups. In 2020, JPMorgan conducted experiments using Honeywell International Inc.'s (NASDAQ:HON) quantum computer with the goal of streamlining mathematical operations that involve Fibonacci numbers. These initiatives show how financial organizations are becoming increasingly interested in using quantum computing to solve complex computational problems.

15 Biggest Quantum Computing Companies in the World

Photo by Anton Maksimov juvnsky on Unsplash

Our Methodology

We conducted extensive research and consulted various industry reports, reputed publications, and news articles to shortlist the 15 biggest quantum computing companies in the world. Some of the companies on the list are technology giants and conglomerates investing heavily in quantum technology, while others are pure-play companies specifically focused on quantum computing. The top quantum computing companies were identified by selecting the companies with the highest market capitalizations, indicating their significant presence and market influence in the quantum computing industry. Furthermore, we also looked into factors such as the company's research and development efforts, technological advancements, patents filed, partnerships and collaborations, and financial investments. We have ranked these companies in ascending order of their market capitalization as of May 1.

Market Capitalization: $57.7 million

2022 Total Revenue: $13.1 million

Rigetti Computing, Inc. (NASDAQ:RGTI) is a Berkeley, California-based quantum computing company founded in 2013. The company specializes in superconducting qubit technology. The company has developed the Forest software development kit and the PyQuil programming language to simulate quantum computations. Rigetti Computing, Inc. (NASDAQ:RGTI) has also developed a suite of software tools and algorithms for programming and simulating quantum computations, including the Forest software development kit and the PyQuil programming language. These tools enable researchers and developers to program and simulate quantum algorithms using existing classical computing infrastructure.

Market Capitalization: $62.7 million

2022 Total Revenue: $7.17 million

D-Wave Quantum Inc. (NYSE:QBTS) is a Burnaby, Canada-based leading provider of quantum computing systems and software with a focus on quantum annealing technology. The company is widely regarded as a pioneer in the development of quantum computing technology. The companys flagship product, the D-Wave Quantum Computer, harnesses the power of quantum annealing to address complex optimization problems prevalent in various industries such as logistics, finance, and machine learning.

Market Capitalization: $101.01 million

2022 Total Revenue: $402.61 million

Quantum Corporation (NASDAQ:QMCO) is a San Jose, California-based company founded in 1980 that specializes in data storage and management solutions, including quantum computing. The company has developed a quantum computing software platform called Quantum ATFS that combines traditional data storage and management with quantum computing capabilities. This platform enables customers to process large amounts of data quickly and efficiently using quantum computing algorithms.

Market Capitalization: $1.12 billion

2022 Total Revenue: $11.13 million

IonQ, Inc. (NYSE:IONQ) is a College Park, Maryland-based quantum computing company founded in 2015. The company was founded by a team of experts in quantum computing and is one of the pure plays on our list of the biggest quantum computing companies in the world. IonQ, Inc. (NYSE:IONQ) is considered a leading provider of trapped-ion quantum computing technology, which has the potential to be more scalable than other quantum computing technologies. IonQ, Inc.s (NYSE:IONQ) quantum computing technology is based on a unique approach that uses trapped ions as qubits, which are manipulated using laser beams. Trapped ion qubits are highly stable and have long coherence times. Click here to read IonQ, Inc.'s (NYSE:IONQ) earnings call transcript for Q4 2022.

Market Capitalization: $1.53 billion (1.39 billion)

2022 Total Revenue: $12.52 billion (11.34 billion)

Atos SE (ATO.PA) is a Bezons, France-based information technology (IT) service and consulting company with a specialization in big data and cybersecurity services. The company has been active in the field of quantum computing for the last several years. The entity has developed a quantum computing hardware platform called Atos Quantum, which includes a range of quantum simulators and a quantum annealer. Atos Quantum also provides a software platform for quantum programming called Atos Quantum Learning Machine (QLM). The QLM can simulate up to 40 qubits and provides a range of programming languages for quantum computing, including Python, C++, and Java.

Market Capitalization: $14 billion (1.90 trillion)

2022 Total Revenue: $24.6 billion (3.35 trillion)

Toshiba Corporation (6502.T) is a Tokyo, Japan-based diversified technology company. The company has made notable advancements in quantum key distribution (QKD), a technique crucial for securely distributing secret digital keys to safeguard highly sensitive information across various industries. Toshiba Corporation (6502.T) has also partnered with several research institutions and companies to develop quantum computing hardware and software. Collaborations with institutions like the University of Tokyo and the National Institute of Informatics have focused on projects such as quantum annealing systems and quantum cryptography systems, demonstrating Toshiba's commitment to advancing quantum technologies.

Market Capitalization: $41.41 billion

2022 Total Revenue: $17.87 billion (123.68 billion)

Baidu, Inc. (NASDAQ:BIDU) is a Beijing, China-based tech corporation that has been investing in the field of quantum computing in recent years. The company's dedicated research team has been actively involved in the development of both quantum computing hardware and software. In August 2022, Baidu, Inc. (NASDAQ:BIDU) introduced its first superconducting quantum computer, demonstrating its progress in integrating hardware, software, and applications. Additionally, Baidu, Inc. (NASDAQ:BIDU) has pioneered the development of a comprehensive quantum hardware-software integration solution, enabling access to a wide range of quantum chips through various platforms such as cloud services, mobile applications, and personal computers.

Here's what Horos Asset Management said about Baidu, Inc. (NASDAQ:BIDU) in its Q4 2022 investor letter:

As I mentioned at the beginning of this quarterly letter, we took advantage of the meltdown in technology platforms to initiate new positions in companies in which we had already been shareholders in the past and whose valuation did not, until now, provide a sufficiently high margin of safety. Such is the case of PayPal and Baidu, Inc.(NASDAQ:BIDU).

In the case of Baidu, as many will know, it is known as the Chinese Google. The company has been the leading Internet search engine in the Asian country for years, which has given it a historically privileged position to monetize, through online advertising, a huge user base. However, the rise of two types of applications has called into question the sustainability of its business model. On the one hand, mobile social apps, such as ByteDances well-known TikTok, have emerged as a new model of online consumption, generating a new platform through which to monetize Internet users. On the other hand, even more disruptive in the long term, is the emergence of the so-called super apps: a sort of virtual Swiss Army knives that allow users to access many products and services without having to leave their interface at any time, making Baidus traditional search engine less attractive. In this field, Tencent (with its super app Weixin/WeChat), Alibaba (Alipay) and Meituan certainly stand out. These two factors have caused Baidus online advertising market share to drop from 17% in 2017 to less than 7% estimated for 2022.34 To this deterioration, we should add the collapse in market value of its stake in iQiyi (video platform controlled by Baidu) and its equity holdings such as Trip.com (hotel and flight platform) (Click here to read the full text)

Market Capitalization: $115.29 billion

2022 Total Revenue: $60.53 billion

International Business Machines Corporation (NYSE:IBM) is an Armonk, New York-based technology company. The entity is considered a trendsetter in the field of quantum computing, having developed some of the earliest quantum computers and quantum algorithms. The company has also established the IBM Quantum Network, which connects researchers and developers working on quantum computing. International Business Machines Corporation's (NYSE:IBM) quantum computing technology is based on superconducting qubits, which are integrated into a quantum processor that is designed to be scalable and reliable.

Diamond Hill Capital shared its outlook on International Business Machines Corporation (NYSE:IBM) in its Q4 2022 investor letter:

New positions initiated in Q4 included shortsInternational Business Machines Corporation (NYSE:IBM), Acushnet Holdings (GOLF) and elf Beauty (ELF). Since diversified information technology company IBMs 2019 acquisition of Red Hat, the company has aggressively pursued a hybrid cloud strategy. Though IBM and its new management team have made solid progress on this pivot, we believe the company still meaningfully lags the cloud hyperscalers and other cloud-native companies. Management has also laid out aggressive long-term targets for revenue growth and free cash flow, both of which we believe the company will struggle to achieve as it faces intense competition in its hybrid cloud business and structural headwinds in the companys legacy businesses.

Market Capitalization: $124.55 billion

2022 Total Revenue: $63.05 billion

Intel Corporation (NASDAQ:INTC) is a Santa Clara, California-based technology company that has been heavily investing in quantum computing research and development (R&D). The company has made significant headway in developing its quantum computing hardware, software, and algorithms. Intel Corporations (NASDAQ:INTC) quantum computing technology is based on a different approach than many other companies in the industry, using spin qubits instead of superconducting qubits. Spin qubits are implemented using silicon, which is a mature and well-understood technology that Intel has extensive experience with. Intel Corporations (NASDAQ:INTC) approach is designed to enable easier manufacturing and scalability of quantum computing systems.

Here's what ClearBridge Investments said about Intel Corporation (NASDAQ:INTC) in its Q3 2022 investor letter:

Also on the detractor side,Intel Corporation(NASDAQ:INTC) delivered a disappointing revenue miss and lowered full-year revenue and earnings guidance as COVID-19-driven demand for PCs abated (where Intel enjoys half its sales) and a delay in its flagship Sapphire Rapids CPU hurt its data center business. Despite these issues, we still believe Intel is an economically sensitive turnaround story with substantial upside.

Market Capitalization: $132.22 billion

2022 Total Revenue: $35.47 billion

Honeywell International Inc. (NASDAQ:HON) is a Charlotte, North Carolina-based company that is a new entrant in the quantum computing industry, focusing on developing quantum computers for industrial and commercial use. Honeywell International Inc.s (NASDAQ:HON) quantum computing system is based on trapped ion technology, which uses ions trapped in a magnetic field to perform quantum computations. The company's quantum computing system consists of a quantum processor made up of ion qubits and a control system used to manipulate and read out the qubits.

In addition to Honeywell International Inc. (NASDAQ:HON), companies such as Alphabet Inc. (NASDAQ:GOOGL), Microsoft Corporation (NASDAQ:MSFT), and Amazon.com, Inc. (NASDAQ:AMZN) are also some of the biggest quantum computing companies in the world.

Click to continue reading and see the 5 Biggest Quantum Computing Companies in the World.

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Disclosure: None. 15 Biggest Quantum Computing Companies in the Worldis originally published on Insider Monkey.

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15 Biggest Quantum Computing Companies in the World - Yahoo Finance

At its recent Think 2023 conference, IBM focused on two areas AI and quantum computing that it believes will be essential to its enterprise customers. Lets look at the details.

Why should organizations consider AI or quantum computing? The technologies are not mutually exclusive but deserve separate answers.

In the former case, AI offers companies new tools for analyzing and leveraging existing data resources with the aim of improving processes from IT management to supply chain operations. Consider that a company could use AI models to generate code for developers or to automate complex data center tasks. These and solutions based on other AI modalities are currently available to businesses.

While it is still in relatively early days, quantum computing is maturing quickly and, in fact, is an issue that many government agencies and businesses will need to understand and deploy relatively soon.

For example, last year the U.S. government released new requirements and guidelines for federal agencies to start transitioning to solutions to protect valuable and critically important data against quantum computing-based attacks. In part, that is due to the increasing prevalence of harvest now, decrypt later attacks aimed at enduringly valuable government information, like classified and strategic documents.

To achieve that, the National Institute of Standards and Technology (NIST) selected four quantum-resistant algorithms for standardization three of which were developed by IBM, alongside academic and industry collaborators.

In addition, the National Security Agency (NSA) announced that national security systems will be required to fully transition to quantum-safe algorithms by 2035. They further define that software and firmware signing should begin transitioning immediately.

Finally, the White House ordered federal agencies to submit inventories of systems that could be vulnerable to cryptographically relevant quantum computers.

Also see:Generative AI Companies: Top 12 Leaders

AI-enabled business has arrived, and the need for quantum computing is approaching quickly. IBMs central message at Think 2023 was that it is delivering artificial intelligence business solutions today and is rapidly developing robust quantum safe technology and services for near term deployment.

According to IBM chairman and CEO Arvind Krishna, the new WatsonX AI and data platform was, Built for the needs of enterprises, so that clients can be more than just users, they can become AI advantaged. Foundation models make deploying AI significantly more scalable, affordable and efficient. With IBM WatsonX, clients can quickly train and deploy custom AI capabilities across their entire business, all while retaining full control of their data.

What are foundation models? According to the company, they are built with large sets of IBM-curated enterprise data backed by a robust filtering and cleansing process and auditable data lineages. IBM is training the models on language, as well as other modalities, including code, time-series data, tabular data, geospatial data and IT events data.

Using WatsonX foundation models alone or in concert with their own proprietary data sets will enable IBM customers to speed and scale AI training processes while reducing potential problems caused by inaccurate or noisy data.

As a result, AI-enabled business processes should be more stable and successful out of the block. Plus, IBM believes that the adaptable AI models combined with enterprises data and domain expertise will enable customers to derive competitive differentiation and unique business value.

On a related topic:The AI Market: An Overview

As detailed at Think 2023, the WatsonX platform consists of three product sets:

Watsonx.ai and watsonx.data are expected to be generally available in July 2023. Watsonx.governance is expected to be generally available later this year. In addition, IBM plans to infuse WatsonX foundation models throughout its advanced software portfolio.

Finally, the company also announced other upcoming offerings designed to help drive AI adoption. Those include:

Also see:Top Generative AI Apps and Tools

IBMs new Quantum Safe technology is an end-to-end solution designed to help clients remain secure now and throughout their quantum-safe journey towards the post-quantum era. Sounds good, but what exactly does this mean?

While some quantum computing and quantum-like solutions are available, the market is still in very early days. However, potential dangers lie ahead as quantum technologies mature and become increasingly available to valid business and government agencies, as well as to bad actors, including rogue states and organized cybercriminals.

The question, then, is how organizations can best protect themselves against quantum-based cyberattacks during this transition. These attacks include harvest now, decrypt later schemes designed to steal highly encrypted data in the hopes that quantum-based tools can eventually be used to decode it.

In essence, IBM Quantum Safe is designed to thwart such efforts with various tools, including:

IBM also announced its Quantum Safe Roadmap, which is designed to help clients understand new threats and solutions and support them through this security transition.

Also see:What is Artificial Intelligence?

So, what are we to make of IBMs new WatsonX solutions and Quantum Safe offerings? In the former case, WatsonX is hardly IBMs first foray into AI. In fact, the company has been at the forefront of AI R&D since the 1950s with Arthur Samuels checkers-playing computer. IBM efforts continued through the Deep Blue system that beat chess grand master Gerry Kasparov in 1997 and the Watson system that triumphed over two Jeopardy grand champions in 2011.

While IBMs commercial Watson efforts havent all succeeded as the company hoped, the platform remains one of the worlds most advanced generative AI solutions. Moreover, IBMs focus on using Watson for simplifying operations and amplifying business benefits continues to find willing customers. In the weeks leading up to Think 2023, SAP announced that it will embed IBM Watson AI in SAP Start, the digital assistant that runs across all SAP instances.

With those points in mind, IBMs plans and goals for WatsonX appear eminently sensible and achievable, and the companys approach is spot-on. Leveraging its own substantial resources curated foundation models, machine learning expertise, hybrid cloud assets and data management and governance tools should make the WatsonX platform powerfully attractive to IBM clients.

Similar to its experience in AI, IBM was an early adopter and promoter of quantum computing and is actively working to bring quantum solutions to market. It also clearly recognizes the potential dangers that government agencies and enterprises face during the quantum computing transition. Along with its work on three of the four quantum-resistant algorithms adopted for standardization by the NIST, IBM also embedded quantum safe features in the z16 mainframesand LinuxONE 4 systems it launched last year.

In other words, just as it has done with WatsonX, the company is using its quantum computing investments and expertise to deliver Quantum Safe solutions to keep government and enterprise clients secure now and against future threats.

For moreinformation, also see:What is Data Governance

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IBM Think 2023: AI and Quantum Computing | eWEEK - eWeek

Wow, Monday comes so quickly. I'm Diamond Naga Siu, and I was a member of The Great Resignation when I joined Insider. Now, I'm likely a member of the next workplace era: The Big Stay.

The massive pay bumps from the past few years are mostly gone. So Americans are suddenly quitting their jobs at way lower rates than before. My colleague Madison Hoff gives us a first-look at this emerging era and breaks down the lingering workplace trend.

Before I go plan some career goals, let's dive into today's tech.

If this was forwarded to you, sign up here. Download Insider's app here.

1. Google's AI demonstration showed how Big Tech keeps on winning. Lots of startups are throwing their hat into the generative AI race. But it looks like Big Tech has a leg up on the competition. And Google's AI event last week underscored this advantage.

Dive into the "race" for AI here.

In other news:

2. "I saw a quantum computer." The powerful, new device was unveiled in a Denver, Colorado data center. It's housed in a drab, windowless room, and Insider's Julie Bort was one of a handful of people given a look. Check it out here.

3. Linda Yaccarino's jump to Twitter CEO leaves NBCUniversal in crisis. She spent nearly 12 years at the company and left days before the biggest ad industry conference of the year. An executive told Insider that her departure is like the "Cuban missile crisis." Dive into the turmoil here.

4. DeepMind co-founder Mustafa Suleyman has a chilling warning for Google, his former employer. Suleyman believes the internet as we know it will fundamentally change and "old school" Search will be gone in a decade. Here's why.

5. AI "digital workers" can complete 1-month tasks in 10 minutes. The state of New Mexico employs 30 "digital workers." They tackle repetitive tasks that free staff up to do other things it's a model for what the future of work could look like. Check it out here.

6. This Gen Zer learned how to be a data analyst via YouTube. His career switch led to a 40% salary bump and stronger benefits. Plus, he and his wife paid down their debts and can now pursue their true passion traveling. Follow his journey here.

7. Once upon a time, this team lip-synced Frozen's "Let It Go" during a Zoom meeting. It was incredibly awkward. But it was also their best team-building moment ever. Now, the recording lives happily ever after online. Watch it here.

8. Ford's "beastly" Ranger Raptor is finally coming to the US. The aggressive-looking, desert-shredding pickup will be available in the US for the first time ever. It's redesigned with a 2.7-liter, turbocharged V6 engine, upgraded interior, and more. Hop in for the full ride here.

Odds and ends:

9. Russian tycoon sues the UK to get his $48 million superyacht back. The massive vessel featuring an "infinite wine cellar" was seized by the government (see it chilling in Canary Wharf here). But now, the property developer wants it back. Set sail here for the full story.

10. Everything you need to know about the Apple Watch Series 8. It's a major upgrade for older WatchOS users. The wearable boasts 36 hours of battery life, advanced health and fitness sensors, and a premium design. Get a full look at it here.

What we're watching today:

Curated by Diamond Naga Siu in San Diego. (Feedback or tips? Email dsiu@insider.com or tweet @diamondnagasiu) Edited by Alistair Barr (tweet @alistairmbarr) in San Francisco and Hallam Bullock (tweet @hallam_bullock) in London.

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10 Things in Tech: 'I saw a quantum computer,' Gen Zer learns data analytics on YouTube, and Ford's Ranger Rap - Business Insider India

In the background: the gravitational lens effect, an example of an effect explained by relativity. With quantum particles, analogous effects can be studied. Credit: NASA / TU Wien

New techniques can answer questions that were previously inaccessible experimentally including questions about the relationship between quantum mechanics and relativity.

Scientists at TU Wien and other institutions have developed a quantum simulator using ultracold atomic clouds to model quantum particles in curved spacetime, marking a major step toward reconciling quantum theory and the theory of relativity. The model system offers a tool to study gravitational lensing effects in a quantum field, which may lead to new insights in the elusive field of quantum gravity and other areas of physics.

The theory of relativity works well when you want to explain cosmic-scale phenomena such as the gravitational waves created when black holes collide. Quantum theory works well when describing particle-scale phenomena such as the behavior of individual electrons in an atom. But combining the two in a completely satisfactory way has yet to be achieved. The search for a quantum theory of gravity is considered one of the significant unsolved tasks of science.

This is partly because the mathematics in this field is highly complicated. At the same time, it is tough to perform suitable experiments: One would have to create situations in which phenomena of both the relativity theory play an important role, for example, a spacetime curved by heavy masses, and at the same time, quantum effects become visible, for example, the dual particle and wave nature of light.

At the TU Wien in Vienna, Austria, a new approach has now been developed for this purpose: A so-called quantum simulator is used to get to the bottom of such questions: Instead of directly investigating the system of interest (namely quantum particles in curved spacetime), one creates a model system from which one can then learn something about the system of actual interest by analogy. The researchers have now shown that this quantum simulator works excellently. The findings of this international collaboration involving physicists from the University of Crete, Nanyang Technological University, and FU Berlin are now published in the scientific journal Proceedings of the National Academy of Sciences of the USA (PNAS).

The basic idea behind the quantum simulator is simple: Many physical systems are similar. Even if they are entirely different kinds of particles or physical systems on different scales that, at first glance, have little to do with each other, these systems may obey the same laws and equations at a deeper level. This means one can learn something about a particular system by studying another.

We take a quantum system that we know we can control and adjust very well in experiments, says Prof. Jrg Schmiedmayer of the Atomic Institute at TU Wien. In our case, these are ultracold atomic clouds held and manipulated by an atom chip with electromagnetic fields. Suppose you properly adjust these atomic clouds so that their properties can be translated into another quantum system. In that case, you can learn something about the other system from the measurement of the atomic cloud model system much like you can learn something about the oscillation of a pendulum from the oscillation of a mass attached to a metal spring: They are two different physical systems, but one can be translated into the other.

We have now been able to show that we can produce effects in this way that can be used to resemble the curvature of spacetime, says Mohammadamin Tajik of the Vienna Center for Quantum Science and Technology (VCQ) TU Wien, first author of the current paper. In the vacuum, light propagates along a so-called light cone. The speed of light is constant; at equal times, the light travels the same distance in each direction. However, if the light is influenced by heavy masses, such as the suns gravitation, these light cones are bent. The lights paths are no longer perfectly straight in curved spacetimes. This is called the gravitational lens effect.

The same can now be shown in atomic clouds. Instead of the speed of light, one examines the speed of sound. Now we have a system in which there is an effect that corresponds to spacetime curvature or gravitational lensing, but at the same time, it is a quantum system that you can describe with quantum field theories, says Mohammadamin Tajik. With this, we have a completely new tool to study the connection between relativity and quantum theory.

The experiments show that the shape of light cones, lensing effects, reflections, and other phenomena can be demonstrated in these atomic clouds precisely as expected in relativistic cosmic systems. This is not only interesting for generating new data for basic theoretical research solid-state physics and the search for new materials also encounter questions that have a similar structure and can therefore be answered by such experiments.

We now want to control these atomic clouds better to determine even more far-reaching data. For example, interactions between the particles can still be changed in a very targeted way, explains Jrg Schmiedmayer. In this way, the quantum simulator can recreate physical situations that are so complicated that they cannot be calculated even with supercomputers.

The quantum simulator thus becomes a new, additional source of information for quantum research in addition to theoretical calculations, computer simulations, and direct experiments. When studying the atomic clouds, the research team hopes to come across new phenomena that may have been entirely unknown up to now, which also take place on a cosmic, relativistic scale but without a look at tiny particles, they might never have been discovered.

Reference: Experimental observation of curved light-cones in a quantum field simulator by Mohammadamin Tajik, Marek Gluza, Nicolas Sebe, Philipp Schttelkopf, Federica Cataldini, Joo Sabino, Frederik Mller, Si-Cong Ji, Sebastian Erne, Giacomo Guarnieri, Spyros Sotiriadis, Jens Eisert and Jrg Schmiedmayer, 15 May 2023, Proceedings of the National Academy of Sciences.DOI: 10.1073/pnas.2301287120

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Bridging Quantum Theory and Relativity: Curved Spacetime in a ... - SciTechDaily

LONDON, May 2, 2023 /PRNewswire/ -- Omdia forecasts that quantum computing vendors will see their global revenue rise from $942 million in 2022 to $22 billion in 2032, for a compound annual growth rate of 57.7% over this ten-year period. North America and Europe are expected to be the leading regional markets, with Asia & Oceania a close third. Cloud-based access services will make up the largest share of revenue, followed by hardware, consulting, and software. Omdia also believes 2027 will be a key inflection point in the market, and that the chances of a "quantum winter" are very small (less than 1%).

Near term, Omdia believes examples of "quantum commercial advantage" in which a quantum computer supplies a measurable advantage in speed, cost, quality, or efficiency over the typical classical alternative for a problem of commercial interest will grow steadily. By 2027, enough of these examples will be clear across enough verticals and industries that adopters will shift from "experimenting with quantum computing" to "deploying quantum computing for operational needs."

"Achieving fault-tolerant scaled quantum computing would help humanity solve key challenges related to climate change, developing new pharmaceuticals and materials, and bringing important advances to artificial intelligence." says Sam Lucero, Chief Analyst for Quantum Computing at Omdia. "But the industry has a long road to fully achieving this goal."

Recently, concerns have grown about the possibility of a "quantum winter". However, Omdia notes several factors protecting against such a downturn, including growing investments in vendors, strong government support, diverse technology options, and steady technology advancements by vendors.

"While a 'quantum winter' is possible," says Lucero "the chance of it happening is far outweighed by the likelihood of continued steady progress towards fault-tolerant, scaled quantum computers."

Omdia published its annual quantum computing market forecast report in April 2023.

ABOUT OMDIA

Omdia, part of Informa Tech, is a technology research and advisory group. Our deep knowledge of tech markets combined with our actionable insights empower organizations to make smart growth decisions.

Contact Fasiha Khan / T: +44 7503 666806 / E: [emailprotected]Visit http://www.omdia.com

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Omdia forecasts quantum computing market will grow more than 22x ... - PR Newswire