The Interview World

Hanron Space Pvt. Ltd. is a trailblazer in quantum microwave devices and sub-systems. Founded in 2024, the company is at the forefront of quantum technology innovation, driving cutting-edge research and development. Specializing in the design and fabrication of customized RF/MW sub-systems, Hanron Space provides solutions across a wide temperature range, from room temperature to cryogenic conditions. Its primary focus lies in advanced quantum physics and space technology.

Founded nearly five decades ago, Tabor Electronics is a major force in the signal source market. Known globally for its exceptional engineering expertise and highly skilled workforce, Tabor has also earned a distinguished reputation for innovation.

Tabor was born from Zvi Glazer’s groundbreaking invention—the world’s first automatic counter. Established in 1971 as a spin-off from Israel’s first startup, Elron Corporation, Tabor initially focused on test and measurement products like multimeters, wattmeters, and digitizers. Over the past two decades, the company has become a signal source technology leader. Tabor’s journey has seen it evolve from an OEM for industry giants to the creator of its renowned brand.

Today, Tabor’s portfolio includes a wide array of high-performance signal sources, such as RF, pulse, function, arbitrary waveform generators, high-voltage amplifiers, and software for waveform and modulation creation. Moreover, these products, known for their performance, reliability, and competitive pricing, are indispensable in diverse industries.

Both Hanron Space Pvt. Ltd. and Tabor Electronics are at the cutting edge of quantum technology, co-creating innovations that benefit sectors like space, fintech, and communications.

In an exclusive conversation with The Interview World, Piyush Vishwakarma, Director and Chief Marketing Officer of Hanron Space Pvt. Ltd., and Nikhil Mitaliya, General Manager – India at Tabor Electronics, discussed their core offerings. They also shared their perspectives on the sectors benefiting from quantum technology, India’s position in this field, and the competitive landscape. Here are the key takeaways from their insightful conversation.

Q: Can you elaborate on the core offerings and key services provided by Hanron Space?

A: Hanron Space Private Limited is developing quantum devices designed for cryogenic temperatures. These devices play a pivotal role in both quantum and space technologies, with applications in both fields.

In the realm of superconducting quantum computing, there is a crucial transition from room temperature to cryogenic conditions, reaching temperatures as low as minus 273 degrees Celsius. Hanron Space is creating devices that facilitate the efficient transfer of energy to quantum processors. This includes the development of key RF microwave components, such as cables, filters, and amplifiers, which are integral to the functioning of these advanced systems.

Q: Beyond the space sector, in which other industries or applications could this quantum technology prove beneficial?

A: These specialized technologies serve only two distinct domains: satellite communication in space and quantum technology. In satellite communication, applications include radar systems, imaging satellites, and communication satellites. The other domain, quantum technology, represents another niche where we apply our expertise. These fields are where our focus and innovations are concentrated.

Q: What do you envision for the future of quantum technology in India?

A: The National Quantum Mission envisions a future where, in the next five years, we will see thousands of qubits. To support and drive these qubits, we will need an equally vast number of accessories. Specifically, for every thousand qubits, we require at least 2.5 times the number of cable accessories, as well as an additional set of quantum devices to generate the required resonant frequencies. This also presents a significant manufacturing opportunity. As the technology matures, we will mass-produce these components, meeting the growing demand.

Q: How would you assess India’s position in the global race for quantum technology?

A: India is currently in the early stages of quantum technology development. However, with the National Quantum Mission in place, we are poised for significant progress. In the next five years, we are confident that India will emerge as a global leader in this field, standing alongside the most advanced nations.

Q: Who will benefit most from this technology, and how will it impact them?

A: Multiple disciplines will benefit from this advancement. First and foremost, researchers will gain significantly. They will be able to invent new materials, develop innovative algorithms, and refine complex mathematical formulas—tasks that currently require the immense computational power of supercomputers. Additionally, fintech companies stand to reap substantial rewards. Sectors like banking and communication will also experience considerable benefits, enhancing efficiency and driving progress across the board.

Q: What other sectors do you believe could benefit from the application of quantum technology?

A: National security will be a crucial application for quantum communication. In the future, all global communication will likely rely on quantum technology due to its inherent security—it is virtually unhackable. Currently, we are engaged in critical communication that remains secure, thanks to quantum advancements.

Possessing quantum technology provides a strategic advantage. A country with dominance in quantum computing could potentially infiltrate any nation’s security systems. This is why global powers like the US, China, and Russia are fiercely competing in this arena. India is now joining this elite league.

With quantum technology in hand, any computer or encryption can be breached. This race for quantum supremacy is defining the future of global security and technological leadership.

Q: Who do you consider your main competitors in the industry?

A: In this field, QuantWare and Delft Circuits are among our key competitors. However, they are primarily based in Europe or the US. There are also a few Japanese companies involved in developing these devices. Additionally, while China has a presence in the quantum technology space, its companies are currently limited by significant restrictions.

Q: How are Tabor Electronics and Hanron Space interconnected, and what is the nature of their collaboration?

A: When it comes to quantum control electronics, Tabor Electronics takes the lead. Meanwhile, Hanron Space handles the subsystems that are integral to quantum computers. This collaboration allows us to co-create innovations in quantum technologies.

Breaking Barriers in Quantum Technology for Global Race
Breaking Barriers in Quantum Technology for Global Race

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