South Asia

The paper provides a detailed analysis of the contemporary Sino-Indian conventional ground and nuclear force balances and carefully reconstructs how mutual developments in these areas are perceived by both New Delhi and Beijing.

In this Project on Managing the Atom Discussion Paper, Philipp C. Bleek chronicles nuclear weapons proliferation choices throughout the nuclear age. Since the late 1930s and early 1940s, some thirty-one countries are known to have at least explored the possibility of establishing a nuclear weapons program. Seventeen of those countries launched weapons programs, and ten acquired deliverable nuclear weapons.

In this Project on Managing the Atom Discussion Paper, Mansoor Ahmed examines India’s fissile material production capacity and the military potential of its unsafeguarded nuclear fuel cycle and energy program.

The flight-testing of the 60-kilometer (or 37-mile) Hatf-IX, or Nasr, ballistic missile in April 2011 has renewed controversy and debate about strategic stability and nuclear weapons in South Asia. Official statements issued by Pakistan’s Inter Services Public Relations Directorate (ISPR) claim that the Nasr was developed “to add deterrence value to Pakistan’s Strategic Weapons Development programme at shorter ranges.” The Nasr could carry “nuclear warheads of appropriate yield with high accuracy,” and had shoot-and-scoot attributes—essentially a “quick response system” that addressed “the need to deter evolving threats.”

As India’s civilian nuclear energy program expands with the assistance of international nuclear suppliers, it creates new potential pathways to the acquisition of fissile material that could be diverted for military purposes. A key question is whether and how India’s civilian and military nuclear facilities are separated. In this discussion paper from the Belfer Center’s Project on Managing the Atom, Kalman A. Robertson and John Carlson argue that India has not established a complete and verifiable separation of its civilian and military nuclear programs. The authors recommend steps for India to take under its safeguards agreement with the International Atomic Energy Agency to provide assurances to all states that components of its civilian program are not contributing to the growth of its nuclear arsenal. These steps include renouncing options that would facilitate the use of safeguarded items to produce unsafeguarded nuclear material, and placing the proliferation-sensitive components of its nuclear power industry under continuous safeguards.

Nearly all of the 190 signatories to the Nuclear Non-Proliferation Treaty (NPT) agree that the forty-two-year-old treaty is fragile and in need of fundamental reform. But gaining consensus on how to fix the NPT will require reconciling the sharply differing views of nuclear weapon states and non-nuclear weapon states. Strengthening the international rules is increasingly important as dozens of countries, including some with unstable political environments, explore nuclear energy. The result is an ever-increasing distribution of this technology. In this paper, Steven E. Miller outlines the main points of contention within the NPT regime and identifies the issues that have made reform so difficult.

New Harvard Kennedy School research finds that energy research, development, and demonstration (ERD&D) funding by governments and 100 percent government-owned enterprises in six major emerging economies appears larger than government spending on ERD&D in most industrialized countries combined. That makes the six so-called BRIMCS countries—Brazil, Russia, India, Mexico, China, and South Africa—major players in the development of new energy technologies. It also suggests there could be opportunities for cooperation on energy technology development among countries.

Over the past decade, countries with emerging economies like Brazil, Russia, India, Mexico, China, and South Africa have become important global players in political and economic domains. In 2007, these six countries consumed and produced more than a third of the world's energy and emitted about 35 percent of total greenhouse-gas (GHG) emissions. The changing global energy landscape has important implications for energy technology innovation (ETI) nationally and internationally. However, there is limited information available about the investments and initiatives that are taking place by the national governments within these countries. This paper presents the information available on energy RD&D investments in the emerging economies. 

In the 1970s, nuclear-power boosters expected that by now nuclear power would produce perhaps 80 to 90 percent of all electrical energy globally. Today, the official high-growth projection of the Organization for Economic Co‑operation and Developments (OECD) Nuclear Energy Agency (NEA) estimates that nuclear power plants will generate about 20 percent of all electrical energy in 2050. Thus, nuclear power could make a significant contribution to the global electricity supply. Or it could be phased out — especially if there is another accidental or a terrorist-caused Chernobyl-scale release of radioactivity. If the spread of nuclear energy cannot be decoupled from the spread of nuclear weapons, it should be phased out.

Matthew Kroenig examines the effect of the spread of nuclear weapons on international politics in a Managing the Atom Working Paper.  He observes that the spread of nuclear weapons threatens some states more than others, and proposes a theory of nuclear proliferation that examines the differential effects of proliferation.  He argues that the threat nuclear proliferation poses to a particular state depends on that state’s ability to project military power.  The spread of nuclear weapons is worse for states that have the ability to project conventional military power over a potential nuclear weapon state because nuclear proliferation constrains their conventional military freedom of action.