Daily Current Affairs

May 9, 2025

Current Affairs

What are Harop Drones?

Context: Indian armed forces reportedly deployed Israeli-origin Harop drones to carry out precision strikes on air defence systems in Pakistan as part of their ongoing 'Operation Sindoor'.

Relevance of the Topic:Prelims: Key facts about HAROP Drone. 

Harop Drones

About Harop Drone

  • Developed by: Israel Aerospace Industries (IAI).
  • It is a loitering munition - a cross between a drone (UAV) and a missile. This category of weapons loiter in the air close to the designated target. 
  • It is capable of independently identifying and destroying high-value targets, particularly radar systems and air defence platforms. 
  • The drones are launched from canister-based systems mounted on mobile ground vehicles or naval platforms, making them deployable across diverse terrains and suitable for fast, targeted strikes.
  • Designed for deep precision attacks, the Harop can loiter over target zones for up to 9 hours using an electro-optic seeker to locate, identify, and strike from multiple angles. 
  • They cause destruction by crashing into their targets with the explosive payload that they carry, earning names such as “suicide drones” and “kamikaze drones”.
  • Its immunity to satellite jamming (GNSS) and real-time human oversight give it both autonomy and flexibility in complex battlefield environments.

Harop does not only eliminate terror infrastructure but is also capable of degrading Pakistan’s defensive capabilities to prevent further incursions. 

How Air Defence Systems work?

Context: India’s Air Defence Systems have been instrumental in thwarting Pakistani aerial attacks along the western border, amid the ongoing India-Pakistan face-off. Controlling the skies is of paramount importance in modern warfare, and thus air defence systems are vital. 

Relevance of the Topic: Prelims & Mains: India’s Air Defence Systems: Types and Working. 

What is the Air Defence System?

  • The primary objective of Air Defence Systems is to eliminate threats from the sky- be it enemy fighter aircraft, unmanned drones, or missiles. A capable and operational air defence system offers protection against enemy air strikes.
  • This is done with the help of a complex system of radar, control centres, defensive fighter aircraft, and ground-based air defence missile, artillery, and electronic warfare systems.

How do Air Defence Systems work?

An air defence system can be sub-categorised into three interlinked operations.

1. Detection: 

  • The ability to detect threats in the first place, is the key to the success of any air defence system. This is typically done by radar. In some cases, such as an enemy launching an Intercontinental Ballistic Missile (ICBM), satellites may be used for detection. 
  • Radar sends out beams of electromagnetic radio waves through a transmitter. These waves are reflected by the objects that they hit (such as an enemy aircraft). A receiver then collects the returning radio waves. Based on which, the radar is able to interfere with the distance of the threat, its speed, and its specific nature (what kind of aircraft/ missile).

2. Tracking: 

  • The efficiency of an air defence system is also determined by its ability to constantly and accurately track an aerial threat. This is typically done using a combination of radar and other sensors such as infrared cameras or laser rangefinders.
  • The air defence system has to identify and track multiple, fast-moving threats in complex and cluttered environments, which may also include friendly aircraft.
  • The accuracy of tracking is crucial for effectively neutralising the enemy without targeting false threats.

3. Interception: 

  • Once the threat has been detected and tracked, it must be neutralised. The specifics of the threat, i.e., its range, type (what kind of missile/ aircraft), speed, etc., determine the ways in which air defences work.

All these three aspects of an air defence system have to work together as a whole. This is called C3 or a “command, control and communication” system in military parlance.

To establish air superiority over enemy territory, the enemy’s air defence systems have to be neutralised. Suppression of Enemy Air Defences (SEAD) operations target enemy air defences with missiles, EW, bombs, UAVs or even ground attacks. 

How are Targets Intercepted?

Depending on the challenges they foresee, nations utilise a wide assortment of weapons to neutralise aerial threats. These include the following:

1. Fighter Aircraft: 

  • Interceptors are fighters that take on attacking enemy aircraft, especially bombers. These agile aircraft can be scrambled at a moment’s notice, and they climb quickly to altitude and neutralise an enemy aircraft before it deploys its weapons.
  • Interceptors are equipped for air-to-air combat with cannon, rockets, a suite of visual-range and beyond-visual-range missiles, and electronic warfare systems.
  • Aircraft such as MiG-21 (an upgraded variant of which is still in service with the Indian Air Force) were dedicated interceptors; latest fighter aircraft have multirole capabilities. 
  • India can deploy Sukhoi Su-35s, MiG-29s, HAL Tejas, Mig-21 Bisons, and Dassault Rafales for interceptor missions.

2. Surface-To-Air Missiles (SAMs): 

  • SAMs can be used to target enemy fighters, helicopters, and missiles. They are generally radar-guided, infrared-guided, or laser-guided. 
  • In addition to being operated from the ground, SAMs can also be launched from ships. The three unofficial classes of SAMs are:
    • Heavy long-range systems which are fixed or semi-mobile
    • Medium-range vehicle-mounted systems that can fire on the move
    • Short-range man-portable air-defense systems (or MANPADS).
  • India’s arsenal of SAMs include: indigenously-developed medium-range Akash missiles, the medium-to-long range Barak missiles, and the long-range S-400 missiles.

Types of SAMs: Each SAM class has a different function: 

  • Heaviest SAMs: Russian-made S-400 system used by India take on enemy ballistic missiles or aircraft at long range of up to 400 kilometres. 
  • Medium range SAMs have the capability to hit targets in the 50-100 km range but are more mobile, and can be launched in next-to-no time. E.g., Akash Missile System; Akash-NG (New Generation); Barak-8. 
  • MANPADS are used for low-lying targets such as hovering helicopters or drones, or fixed-wing aircraft engaged in ground attack roles. These are far more cost-effective than the other classes, and are also used by non-state actors in unconventional warfare.

3. Anti-Aircraft Artillery (AAA): 

  • Augmented with automated fire-control systems, they remain crucial last-ditch defences, and are also used for specialised anti-unmanned aerial vehicle (UAV) roles.
  • AAA fire shells rapidly, at rates of over 1,000 rounds per minute. AAA shells are designed to explode at pre-determined altitudes so as to disperse shrapnel over a wide area. This makes an AAA battery effective even if it does not achieve a direct hit.

4. Electronic Warfare (EW): 

  • EW systems are designed to disrupt, deceive, or destroy threats using the power of the electromagnetic spectrum.
  • EW is most often used to jam enemy radar and targeting systems, so as to impede its ability to accurately and effectively deploy its weapon. EW can confuse attack drones or prevent enemy air-to-surface missiles from homing in on targets.
  • E.g.,
    • DRDO’s Netra AEW&C (Airborne Early Warning & Control).  
    • DRDO’s Advanced Electronic Warfare Suite 'Shakti' for Indian Naval Ships.

Also Read: S-400 Missile System: India's Sudarshan Chakra 

Establishing air superiority allows an Air Force to operate with a degree of impunity, and without fear of attrition in bombing, tactical air support, paratroop insertion, or supply-drop missions. 

Rohingyas need to be deported if held Foreigners: SC

Context: Recently, the Supreme Court observed that if the Rohingya refugees are found to be ‘foreigners’ under the Foreigners Act, the Central government can deport them in accordance with the procedure under the law. 

Relevance of the Topic: Mains: Ethics and status of refugees in India, including citizenship issues. 

The Recent ruling of Supreme Court: 

  • Though the right to life and due process (Article 21) and the right to equality (Article 14) of the Constitution are available to all (citizens as well as non-citizens in India), the fundamental right to reside or settle in any part of India under Article 19(1)(e) is only available to Indian citizens. 
  • As the Rohingyas do not have a right to settle in India, they will be deported as per the procedure prescribed in law. 

India’s stand on Rohingya Refugees

Rohingyas faced genocide in the Myanmar’s Rakhine region, and now constitute the world’s largest stateless population in the world.

  • India is not a signatory to the UN Convention on Refugees (UNHCR). India is not a party to the key International instruments such as:
    • Conventions against Torture and other Cruel, Inhuman or Degrading Treatment or Punishment.
    • International Convention for the Protection of all Persons from Enforced Disappearance.
  • Therefore, India maintains no legal obligations to provide asylum and adhere to the Policy of Non-Refoulement. Policy of Non-refoulement prohibits returning individuals to places where they face persecution, torture, or serious harm, protecting refugee and human rights.
  • India categorises Rohingya refugees as Illegal Migrants. India continues to detain Rohingya refugees under the domestic acts like:
    • The Foreigners Act, 1946 regulates the entry, stay, and departure of foreigners in India, along with deportation of the illegal migrants in India.
    • The Passport Act, 1967 governs the issuance and regulation of passports in India. 
  • The government under the Foreigners Act has the absolute and unlimited powers to issue orders to “prohibit, regulate, restrict entry or departure of foreigners”, especially when national security concerns are at play. 

Also Read: India’s obligations towards Rohingya Refugees 

India’s Precision-guided Long Range Weapons

Context: Amid ongoing India-Pakistan face-off, India is using new-age weapons to carry-out precision strikes to hit terrorist infrastructure inside Pakistan and in Pakistan-occupied Kashmir (PoK).

Relevance of the Topic: Prelims: Key facts about Precision-guided Long Range Weapons. 

India’s Precision-guided Long Range Weapons

Indian military has built up a formidable arsenal of new-age weapons that includes a range of precision-guided long-range weapons and drones, including loitering munitions. Some examples include: 

1. HAMMER (Highly Agile and Manoeuvrable Munition Extended Range):

  • Air-to-ground precision-guided weapon system for the Rafale fighter aircraft.
  • Built by: Safran Group, France
  • Range of up to 70 km. Integrated with Rafale fighter Aircraft. 
  • Autonomous guidance system (Inertial Navigation System (INS), Global Positioning System (GPS) and laser).
  • Used for precision strikes against a range of targets in medium-range tactical operations.
  • Can be launched from low altitude over rough terrain.
  • Can also be fitted to bombs and various guided systems.
  • All-weather and insensitive to jamming.

2. SCALP (SCALP-EG or Storm Shadow):

  • Air-launched cruise missile designed for long-range deep strikes. 
  • Manufactured by: MBDA (European multinational group)
  • Range of 450 km. Has stealth features. Can be operated at night and in all weather conditions. 
  • Integrated with Rafale fighter Aircraft. 
  • Difficult to detect due to its low-flying capability when fired from an aircraft. Can penetrate bunkers and ammunition stores.
  • Has advanced and highly accurate navigation system, which uses Inertial Navigation System (INS), Global Positioning System (GPS) and terrain referencing.

3. METEOR:

  • Beyond Visual Range Air-to-Air Missile (BVRAAM) system designed to deliver unmatched performance in complex electronic-warfare environments.
  • Manufactured by: MBDA (European multinational group)
  • Equipped with a solid-fuel ramjet engine. Sustains thrust throughout the flight, unlike conventional rocket-powered missiles. 
  • Offers the largest ‘No Escape Zone’ of any air-to-air missile system (i.e., a much greater area within which the target cannot evade the missile).
  • Range over 100 kilometres. Integrated into Rafale aircrafts. Highly resistant to jamming. 

4. BRAHMOS:

  • Supersonic cruise missiles built by BrahMos Aerospace, a joint venture between India’s Defence Research and Development Organisation (DRDO) and Russia’s NPO Mashinostroyeniya.
  • Range: ~450 km (earlier 290 km) 
  • Operates at close to Mach 3 speed in the cruise phase, which ensures reduced flight time, lower dispersion of targets, and quicker engagement time and non-interception.
  • Operates on a ‘Fire and Forget Principle’, adopting varieties of flights on its way to the target.
  • Terminal Altitude: 10- 15 km
  • The missile carries a conventional warhead weighing 200-300 kg.

5. Loitering Munitions:

  • Used for surveillance and identification of targets. 
  • Can carry out precision strikes, autonomously or otherwise.
  • Range: 30-100 km
  • E.g., SkyStriker (Israeli-origin)

India-US Cooperation in Energy and Defence Sector

Context: The Vice-President of the United States has highlighted the US’s willingness to cooperate with India more closely on energy and defence. The countries must deepen and institutionalise their cooperation, particularly focusing on critical minerals and nuclear energy. 

Relevance of the Topic: Mains: India-US bilateral relations: Agreements in energy, defence, and critical minerals.

India’s Energy Priorities

  • India’s energy security is guided by three imperatives, at present:
    • having sufficient energy resources at predictable prices
    • minimal disruptions in supply chains
    • progress towards an increasingly sustainable energy mix.
  • Nuclear energy and critical minerals matter in this respect, and can be the bedrock of further deepening energy and technology partnership.
  • Major Challenge: China controls about 90% of the world’s processing of critical minerals. It sometimes restricts their exports for strategic goals which poses risks to global supply chains.

India-US Cooperation in Energy and Defence sector: 

  • US-India Energy Security Partnership, including in oil, gas and civil nuclear energy. 123 Civil Nuclear Agreement and plans to build US designed nuclear reactors in India through large-scale localisation and energy transfer. 
  • Strategic Mineral Recovery initiative, a new US-India program for cooperation in recovery and processing of critical minerals, including lithium, cobalt, and rare earth elements, from heavy industries like aluminum, coal mining and oil and gas.
  • Accelerate R&D and promote investment across the entire critical mineral value chain, through US-led Minerals Security Finance Network and the Mineral Security Partnership. 
  • US-India TRUST (Transforming the Relationship Utilising Strategic Technology) initiative to catalyse government-to-government, academia and private sector collaboration to promote application of critical and emerging technologies like semiconductors, defence, AI, quantum, biotechnology, space etc.
  • INDUS-X Initiative: Collaboration between India's iDEX (Innovations for Defence Excellence) and the US Defence Innovation Unit to promote innovation in defence technologies, including semiconductors for military applications.

Way Forward

  • The countries should prioritise long-term strategy and enable cross-sectoral skills and technology exchange in the sectors utilising critical minerals (clean energy, defence, and electronics). This includes increasing cooperation in:
    • Exploring and processing critical minerals jointly. Sharing technology and skills.
    • Co-investing in mineral-rich countries like those in Africa or South America.
    • Building an India-US Mineral Exchange: a digital platform to track trade and investment.
    • Creating blockchain-based tracking systems to ensure transparency, like Europe’s Battery Passport.
    • Making joint stockpiles of important minerals to protect against future disruptions.
  • Long-term partnership: It takes 12–16 years to fully develop mines and processing plants, so this partnership must be planned for the long term.
  • To make this successful, both countries need to encourage innovation through platforms like iCET (India-U.S. Critical and Emerging Technology initiative).

India has the growth potential, while the U.S. has technology and capital. Together, they can create a long-term energy partnership that looks beyond short-term gains and focuses on stability, strategy, and sustainability. 

Also Read: India-US TRUST Initiative

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