Context of the News

The Defence Research and Development Organisation (DRDO) successfully conducted multiple strategic missile tests, including:

• Validation of the Multi-layered Ballistic Missile Defence (BMD) System Phase-II
• Maiden test of the Naval Anti-Ship Missile–Medium Range (NASM-MR)
• Successful flight test of the Long-Range Land Attack Cruise Missile (LRLACM)

These developments significantly strengthen India’s strategic deterrence, missile defence capabilities, and indigenous defence ecosystem.

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Background

India launched its Ballistic Missile Defence (BMD) Programme in 1999 in response to the growing missile and nuclear capabilities in its neighbourhood.

The objective was to create a layered defence system capable of intercepting hostile ballistic missiles before they reach their targets.

Over the years, India has gradually developed:

• Long-range tracking radars
• Interceptor missiles
• Command-and-control networks
• Advanced guidance systems

With the successful validation of Phase-II, India joins a select group of nations possessing advanced missile interception capabilities.

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News Breakdown

Key Definitions

Ballistic Missile

A missile that follows a ballistic trajectory after its powered phase and re-enters the atmosphere to strike a target.

Ballistic Missile Defence (BMD)

An integrated system designed to:

• Detect incoming ballistic missiles
• Track their movement
• Intercept and destroy them before impact

Exo-Atmospheric Interception

Destruction of a missile outside Earth’s atmosphere.

Endo-Atmospheric Interception

Destruction of a missile within Earth’s atmosphere.

ICBM (Intercontinental Ballistic Missile)

A ballistic missile with a range exceeding 5,500 km, capable of striking targets across continents.

Hypersonic Glide Vehicle (HGV)

A maneuverable weapon system that travels at speeds above Mach 5 and can alter its flight path, making interception difficult.

MIRV (Multiple Independently Targetable Re-entry Vehicle)

A technology where a single missile carries multiple warheads that can strike different targets independently.

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What is India’s Multi-layered Ballistic Missile Defence System?

The Ballistic Missile Defence System is an automated network consisting of:

• Long-range tracking radars
• Command and control centres
• Interceptor missiles
• Communication networks

Its purpose is to provide a protective shield against enemy ballistic missile attacks.

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Why is the Recent Test Significant?

India has now demonstrated the capability to intercept:

• Short-Range Ballistic Missiles (SRBMs)
• Medium-Range Ballistic Missiles (MRBMs)
• Intermediate-Range Ballistic Missiles (IRBMs)
• Potentially ICBM-class threats

With this achievement, India joins the elite group of nations comprising:

Country
United States
Russia
China
Israel
India

that possess advanced ballistic missile interception capabilities.

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Phases of India’s BMD Programme

Phase-I (Completed in 2019)

Objective

Intercept ballistic missiles having ranges up to 2,000 km.

Key Interceptors

Interceptor	Function
PDV (Prithvi Defence Vehicle)	Exo-atmospheric interception
AAD (Advanced Air Defence)	Endo-atmospheric interception

Radar Support

Swordfish Long Range Tracking Radar (LRTR)

Features:

• Active phased-array radar
• Long-range target tracking
• Simultaneous tracking of multiple targets

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Phase-II (Under Validation)

Objective

Intercept:

• IRBMs
• ICBM-class missiles

Range coverage:

3,000 km to over 5,500 km

New Interceptors

AD-1

Designed for:

• Endo-atmospheric interception
• Low exo-atmospheric interception

AD-2

Designed for:

• Faster ballistic missiles
• Intermediate-range threats
• ICBM-class targets

Significance

Marks a major advancement towards a comprehensive national missile shield.

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Phase-III (Under Development)

Focus

Counter emerging missile technologies.

Future Interceptors

System	Purpose
AD-AH	Anti-Hypersonic Interceptor
AD-AM	Anti-MIRV Interceptor

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AD-AH (Anti-Hypersonic)

Designed to intercept:

• Hypersonic Glide Vehicles
• Weapons travelling above Mach 5

AD-AM (Anti-Missile)

Designed to neutralize:

• MIRV-equipped missiles
• Multiple warheads released from a single missile

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Mission Sudarshan Chakra

What is Mission Sudarshan Chakra?

Mission Sudarshan Chakra is India’s proposed AI-enabled integrated missile and air defence architecture.

Objective

Create a multi-layered national shield protecting:

• Strategic military assets
• Critical infrastructure
• Major cities
• National command centres

Key Features

Hard-Kill Systems

Destroy incoming threats physically through:

• Missile interceptors
• Directed energy weapons
• Close-in weapon systems

Soft-Kill Systems

Neutralize threats through:

• Electronic warfare
• GPS disruption
• Radio-frequency jamming

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Naval Anti-Ship Missile – Medium Range (NASM-MR)

What is NASM-MR?

The Naval Anti-Ship Missile–Medium Range (NASM-MR) is an indigenous anti-ship cruise missile developed by DRDO for the Indian Navy.

It is designed to destroy:

• Frigates
• Corvettes
• Destroyers
• Other hostile naval vessels

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Key Features of NASM-MR

Sea-Skimming Flight Profile

The missile flies very close to the sea surface.

Advantages:

• Reduced radar detection
• Higher survivability
• Better penetration of enemy air defence

Indigenous Engine

Powered by:

Small Gas Turbine Jet Engine (SGTJE)

developed indigenously.

Multi-Platform Capability

Future variants will support:

• Ship launch
• Air launch
• Submarine launch

All-Weather Capability

Can operate effectively under adverse weather conditions.

Range and Payload

Parameter	Capability
Maximum Range	350 km
Warhead Weight	Over 200 kg

Advanced Guidance System

Uses:

• Active Radar Seeker
• Imaging Infrared (IR) Seeker

This dual-mode guidance ensures accuracy even under electronic countermeasures.

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How NASM-MR Complements Existing Systems

Missile	Role
NASM-SR	Short-range anti-ship capability
NASM-MR	Medium-range anti-ship capability

Together they create a layered maritime strike capability for the Indian Navy.

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Long-Range Land Attack Cruise Missile (LRLACM)

What is LRLACM?

The Long-Range Land Attack Cruise Missile (LRLACM) is a fully indigenous cruise missile developed for long-range precision strikes against land-based targets.

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Key Features

Indigenous Development

Developed through collaboration between:

• DRDO laboratories
• Indian defence industries

Supports the vision of:

Aatmanirbhar Bharat in Defence Manufacturing

Nodal Laboratory

Aeronautical Development Establishment (ADE), Bengaluru

served as the lead laboratory.

Strategic Significance

The missile enhances India’s capability to:

• Conduct deep precision strikes
• Target strategic enemy assets
• Improve deterrence capability

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Comparison: Ballistic Missile vs Cruise Missile

Feature	Ballistic Missile	Cruise Missile
Flight Path	Ballistic trajectory	Controlled aerodynamic flight
Speed	Usually higher	Relatively lower
Maneuverability	Limited	High
Detection	Easier during flight	Difficult due to low-altitude flight
Examples	Agni Series	LRLACM

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Prelims Focus

High-Value Facts

DRDO

• Established in 1958
• Functions under the Ministry of Defence
• India’s premier defence research organisation

Swordfish Radar

• Long Range Tracking Radar (LRTR)
• Derived from Israeli Green Pine radar technology
• Active phased-array radar

ICBM

• Range exceeds 5,500 km
• Capable of intercontinental strikes

Mach Number

• Represents speed relative to the speed of sound.
• Hypersonic speed = Mach 5 or above

MIRV Technology

Countries possessing operational MIRV capability include:

• United States
• Russia
• China
• France
• United Kingdom
• India (Agni-V MIRV capability demonstrated)

Cruise Missile

Powered throughout most of its flight using engines.

Examples:

• BrahMos
• Nirbhay
• LRLACM

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Conclusion / Way Forward

Strengthening indigenous missile defence, precision strike systems, and advanced interception technologies is essential for securing India against evolving strategic threats.

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Prelims Check

Question 1

With reference to India’s Ballistic Missile Defence Programme, consider the following statements:

1. The Prithvi Defence Vehicle (PDV) is designed for exo-atmospheric interception.
2. AD-2 interceptor is intended to engage ICBM-class threats.
3. Swordfish is a submarine-based tracking radar.

Which of the statements given above are correct?

(a) 1 and 2 only

(b) 2 and 3 only

(c) 1 and 3 only

(d) 1, 2 and 3

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Question 2

Consider the following pairs:

Missile/System	Type
1. NASM-MR	Anti-Ship Cruise Missile
2. LRLACM	Long-Range Land Attack Cruise Missile
3. AD-AH	Anti-Hypersonic Interceptor
4. AAD	Exo-Atmospheric Interceptor

How many pairs given above are correctly matched?

(a) Only one

(b) Only two

(c) Only three

(d) All four

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Question 3

Consider the following statements regarding MIRV technology:

1. A single missile can carry multiple warheads.
2. Each warhead can be directed toward different targets.
3. MIRV technology reduces the effectiveness of missile defence systems.

Which of the statements given above are correct?

(a) 1 and 2 only

(b) 2 and 3 only

(c) 1 and 3 only

(d) 1, 2 and 3

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Answers and Explanations

Answer 1: (a)

Explanation:

1. PDV is India’s exo-atmospheric interceptor.
2. AD-2 is being developed to counter IRBM and ICBM-class threats.
3. Swordfish is a land-based long-range tracking radar, not submarine-based.

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Answer 2: (c)

Explanation:

1. NASM-MR is an anti-ship cruise missile.
2. LRLACM is a long-range land attack cruise missile.
3. AD-AH is an anti-hypersonic interceptor.
4. AAD is an endo-atmospheric interceptor, making Pair 4 incorrect.

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Answer 3: (d)

Explanation:

1. MIRV allows multiple warheads on one missile.
2. Each warhead can engage a separate target.
3. MIRVs complicate interception and challenge missile defence systems.

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“Nations remain secure not merely through strength, but through continuous innovation, preparedness, and self-reliance.”