India’s nuclear ambitions reach ‘criticality’: The new reactor will generate inexhaustible fuel for centuries

On April 6, 2026, at 8:25 pm, India took a defining step in its nuclear journey. The 500 MWe Prototype Fast Breeder Reactor (PFBR) at Kalpakkam attained criticality — the point where a controlled, self-sustaining nuclear chain reaction begins. Developed entirely by Indian scientists and engineers under Bharatiya Nabhikiya Vidyut Nigam Limited (BHAVINI), this reactor is not just a power plant. It is a “breeder” reactor that can generate more nuclear fuel than it consumes.

Three-stage nuclear vision of Homi J Bhabha

India’s nuclear programme was conceptualised in the 1950s by visionary scientist Homi J Bhabha. The Department of Atomic Energy (DAE) was setup on August 3, 1954 under the direct charge of the Prime Minister through a Presidential Order. Recognising the country’s modest uranium reserves and vast thorium deposits (the third-largest in the world, concentrated along the southern coastal regions), Bhabha designed a unique three-stage programme.

Stage 1 uses Pressurised Heavy Water Reactors (PHWRs) that run on natural uranium. These reactors produce electricity and, as a byproduct, plutonium-239.

Stage 2 — now activated by the PFBR — uses this plutonium as fuel in fast breeder reactors. In these reactors, high-energy “fast” neutrons are not slowed down. The core uses mixed oxide (MOX) fuel made from plutonium and uranium. Surrounding the core is a “blanket” of uranium-238. When fast neutrons hit this blanket, they convert uranium-238 into fresh plutonium-239. In simple terms, for every atom of plutonium used up in the core, the reactor produces more than one new atom of plutonium in the blanket. This “breeding” effect multiplies the available fuel.

Stage 3 will use thorium-232 (abundant in India) to produce uranium-233, creating a virtually inexhaustible fuel cycle for centuries.

The PFBR is the first commercial-scale step into Stage 2. Once fully operational and connected to the grid, it will generate 500 MW of electricity while demonstrating this fuel-breeding technology.

Fast Breeder Technology and Resource Efficiency

Unlike conventional reactors that slow down neutrons using water, the PFBR operates with high-energy “fast” neutrons and uses liquid sodium as a coolant. This allows the reactor to convert uranium-238 into plutonium-239, effectively creating new fuel during the power generation process. Dr. Sethi explained the mechanism to TOI, stating, “It is called a ‘breeder’ reactor because it not only uses plutonium but also produces more of it.” This capability is vital for the Viksit Bharat 2047 vision, which targets 100 GW of nuclear power. Dr. Sethi further emphasized the reliability of the technology, noting, “Once a nuclear reactor becomes operational, it functions continuously. There is no concept of a cooling ‘break’ in that sense. That is why nuclear energy provides baseload electricity.”

Global context and India’s unique position

India now joins Russia as one of only two countries operating commercial-scale fast breeder reactors. Russia’s BN-800 is currently the world’s only other large operational breeder reactor. Most other nations have either abandoned or scaled down their breeder programmes due to technical complexities and safety concerns.

Why this is a game-changer for Atmanirbhar Bharat

Currently, India has around 8 GW of nuclear capacity, contributing only about 3.6% of its electricity. The government has set an ambitious target of 100 GW by 2047 under the Viksit Bharat vision. The PFBR is central to this because it multiplies fuel efficiency dramatically, reducing dependence on imported uranium and preparing the ground for thorium-based power in Stage 3.

Prime Minister Narendra Modi described the achievement as a “defining step” in India’s civil nuclear journey, highlighting that the reactor reflects the depth of Indian scientific capability and engineering enterprise.

Dr Manpreet Sethi, distinguished fellow at the Centre for Air Power Studies, told TOI that the PFBR places India in an exclusive group alongside Russia. She noted that while the PFBR alone will not take India from 3.6% to 36% nuclear share, it is a crucial building block.

Challenges and Stage 3 timeline ahead

Fast breeder technology is complex. Liquid sodium coolant, used in the PFBR, transfers heat efficiently but reacts violently with air and water, requiring highly specialised safety systems. The reactor uses liquid sodium as coolant instead of water. Sodium transfers heat efficiently and does not slow down neutrons, which is essential for breeding.

The reactor also incorporates advanced passive safety features that can automatically shut down the system in emergencies.

From criticality to full commercial operation typically takes 12–18 months of testing and gradual power ramp-up. Once successful, India plans to build more fast breeder reactors. Media estimates report that reaching Stage 3 thorium utilisation at scale could take another 15–20 years of sustained effort, depending on how quickly additional breeder reactors are deployed and thorium-based designs are perfected.

The road to energy independence

For a country with growing energy demand and ambitious climate goals, the PFBR represents more than a technical milestone. It is a strategic leap toward long-term energy security, reduced fuel imports, and a sustainable, indigenous nuclear future under the Atmanirbhar Bharat and Viksit Bharat 2047 visions.

(With TOI inputs)

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