Pakistani missile research and development program

Last updated

The Hatf Program (Urdu: حتف; Trans. ḥāṯaʿf, meaning: Target [1] ) was a classified program by the Ministry of Defence (MoD) of Pakistan for the comprehensive research and development of guided missiles. [2] [3] Initiatives began in 1986-87 and received support from Prime Minister Benazir Bhutto in direct response to India's equivalent program in 1989. [4] [5]

Contents

The Hatf program was managed by the Ministry of Defence, although policy guidance came directly from the Pakistan Armed Forces. [1]

Program overview

The missile systems developed as part of the Hatf program mounted on TEL with Pakistani military markings in display at the IDEAS in Karachi, 2008. IRBM of Pakistan at IDEAS 2008.jpg
The missile systems developed as part of the Hatf program mounted on TEL with Pakistani military markings in display at the IDEAS in Karachi, 2008.

In 1987, planning and initiatives for the program began in response to India's revealed missile program. [1] General M. A. Beg, then-army chief, hastily launched the program, intending it to be led by SUPARCO. [6]

The program's feasibility proved more challenging than the nuclear weapons program due to inadequate funding and a lack of focus on control systems and aerodynamics education. [6] India, with existing knowledge based on Russian rockets, was already ahead in missile technology, developing its own independently. [6] Furthermore, the Missile Technology Control Regime (MTCR), formed in 1987, hindered Pakistan's efforts to acquire program components. [6] [7]

The Ministry of Defense eventually took over the Hatf program, delegating it to its weapons laboratories and agencies to collaborate with SUPARCO. [8] In 1989, India successfully test-fired its first variant of the Prithvi missile, which it had been developing independently since 1983. [6] That same year, the SUPARCO test-fired the Hatf, which Prime Minister Benazir Bhutto immediately declared a success. However, the U.S. military dismissed the results, considering the missile an "inaccurate battlefield missile." [6]

Under Prime Minister Benazir Bhutto, the Hatf program was aggressively pursued to address the missile gap with India. [7] [9] The Benazir Bhutto government negotiated engineering education and training on rockets with China and later North Korea. [10] Pakistani military officials documented that Pakistan made substantial cash payments to China and North Korea through its State Bank to acquire practical knowledge in aerospace engineering, controls engineering, programming and space sciences. [6] [11]

Despite constraints and limitations, the Hatf program was made feasible, and former Prime Minister Benazir Bhutto is described as the "political architect of Pakistan's missile technology" by Emily MacFarquhar of the Alicia Patterson Foundation. [12] In 2014, former Prime Minister Yousaf Raza Gillani acknowledged Benazir Bhutto's contribution, stating, "Benazir Bhutto gave this country the much-needed missile technology." [13]

The program eventually expanded and diversified with the successful development of cruise missiles and other strategic-level arsenals in the early 2000s. [14]

Codenames

The Pakistani military issued a single military designation series, Hatf (Trans. Target), for all of its surface-to-surface guided ballistic missiles. [1] This designation was selected by the research and development committee at the HQ of the Pakistan Army, which provided policy guidance to the program. [1] In Turkish, "Hatf" means "Target" or "Aim point" and refers to the sword of Muhammad, which was believed to never miss its target. [1]

The unofficial names, such as Ghauri, Ghaznavi, and Abdali, were codenames for developing projects assigned to defense contractors. These names were derived from historical figures involved in the Islamic conquest of South Asia. [15] The contractors were issued the project names after the Turkish nomads invaded India from the historical region of Greater Khorasan. [15]

Hatf Program Overview [16]
Military designationCodenameDeploymentUnitBranch
Hatf-I Hatf 1992 Army Strategic Forces Command Flag of the Pakistani Army.svg  Pakistan Army
Hatf-II Abdali 2002Army Strategic Forces CommandFlag of the Pakistani Army.svg  Pakistan Army
Hatf-III Ghaznavi 2004Army Strategic Forces CommandFlag of the Pakistani Army.svg  Pakistan Army
Hatf-IV Shaheen 2003Army Strategic Forces CommandFlag of the Pakistani Army.svg  Pakistan Army
Hatf-V Ghauri 2003Army Strategic Forces CommandFlag of the Pakistani Army.svg  Pakistan Army
Hatf-VI Shaheen 2011Army Strategic Forces CommandFlag of the Pakistani Army.svg  Pakistan Army
Hatf-VII Babur 2011Army Strategic Forces Command
Naval Strategic Forces Command		Flag of the Pakistani Army.svg  Pakistan Army
Naval Standard of Pakistan.svg  Pakistan Navy
Hatf-VIII Ra'ad 2012Air Force Strategic Forces CommandAir Force Ensign of Pakistan.svg  Pakistan Air Force
Hatf-XI Nasr 2011Army Strategic Forces CommandFlag of the Pakistani Army.svg  Pakistan Army

Tactical missile development

The Hatf-I (English tr.: "Target") was the first project developed under this program in 1987. Deployed by the Pakistan Army, the Hatf-I is a battlefield range system developed by SUPARCO. The system was seen as direct competition with India’s Prithvi system. [17]

Despite claims of success by the Pakistani administration, the Pakistani military admitted that the missile system’s inaccuracy led to the program’s shelving until 2000 when it finally entered military service.:235–245 [6] Western assessments believed this system to be influenced directly by American and French space rockets studied by SUPARCO as part of its original civilian space program. [18] [19]

Lessons and experiences gained from the Hatf-I eventually led to the design and development of the Nasr in 2011, which is widely believed to be a delivery system for small tactical nuclear weapons. The battlefield range system is exclusively designed and deployed for the Pakistan Army. [15]

Short–medium range development

Comparison by MDA of India and Pakistan's short-range systems. SRBM Comparison.jpg
Comparison by MDA of India and Pakistan's short-range systems.

The Zia administration acquired Soviet Scud technology from the former Afghan National Army, but it provided little benefit to the country's scientists in understanding short-range missile systems.:235–244 [6] In 1993, the Benazir Bhutto government began secretly procuring the DF-11 from China. [20] While the Chinese short-range missile was not nuclear weapons delivery capable, attempts to reverse engineer its delivery mechanism failed.:235–244 [6]

In 1995, Pakistan initiated a program to develop short-range missiles based on a solid fuel platform, with China providing technological assistance and education in aerospace and controls engineering.:235–244 [6] To address the deployment limitations of the M-11, the Abdali program was designed and implemented by the SUPARCO in 1995, while the Ghaznavi program was delegated to the National Defence Complex, deriving from M-11 designs.:235–244 [6] [20] The Ghaznavi's rocket engine, tested in 1997, was a significant breakthrough. [20] DESTO designed five different warheads for the Ghaznavi and Abdali, which could be delivered with a CEP of 0.1% at 600 km. [20]

During this time, the Shaheen program was pursued and developed by the National Defence Complex (NDC). Despite facing technological setbacks the Shaheen program continued to evolve, producing its first prototype in 1999. [21] The program proved sustainable, producing improved variants. [22] The Ababeel was developed with MIRV capability to counter India's missile defence. [23]

The Hatf program diversified into liquid-fuel technology, with KRL as its lead. The technology for this program came directly from North Korea, with support from the Benazir Bhutto administration. [24] Pakistani military admissions confirm that the Finance ministry under Benazir Bhutto paid significant amounts of cash to North Korea to facilitate the transfer of North Korean scientists to Pakistani universities for teaching aerospace engineering.:244 [6] Originally based entirely on the Rodong-1, the Ghauri program, designed under the guidance of North Korean engineers, took its first flight in 1998 but failed due to engine failure and a flawed design. [25]

After the first flight failure in 1998, North Korean engineers were removed from the program, forcing KRL to work on reverse engineering and redesign the entire weapon system. With assistance from the DESTO and NDC, the first missile, Ghauri-I, was made feasible for deployment in 2004. [25] [26]

Cruise missile technology

The Babur in Pakistani military markings being showcased in Karachi in 2006. Babur cruise missile 3.jpg
The Babur in Pakistani military markings being showcased in Karachi in 2006.

Development on understanding and developing cruise missile technology began in Pakistan when India initiated its missile defense program in 1998. Amidst the tense environment between the Sharif administration, Vajpayee premiership and Clinton administration, Pakistan's development of cruise missiles was spurred by India's acquisition of the S-300 Grumble from Russia and its attempts to negotiate with the United States for the Patriot PAC-3. These developments negatively impacted Pakistan's land-based deterrence mechanism.:388 [6]

It took Pakistan several years to make its cruise missile program feasible. In 2005, the first Babur (Pakistani military designation: Hatf-VII) was successfully test-fired by the army, surprising the United States. [27] In 2007, Pakistan announced the development and test-firing of Ra'ad (Pakistani military designation: Hatf-VIII), demonstrating its air-launched cruise missile capability. [28]

In 2017, Pakistan conducted a successful launch of the Babur-III missile from an underwater mobile platform. This long-desired capability for the Navy effectively established Pakistan's second-strike capability from sea. [29] [30] [31]

See also

Related Research Articles

<span class="mw-page-title-main">Cruise missile</span> Guided missile with precision targeting capabilities and multiple launch platforms

A cruise missile is an unmanned self-propelled guided vehicle that sustains flight through aerodynamic lift for most of its flight path and whose primary mission is to place an ordnance or special payload on a target. Cruise missiles are designed to deliver a large warhead over long distances with high precision. Modern cruise missiles are capable of traveling at high subsonic, supersonic, or hypersonic speeds, are self-navigating, and are able to fly on a non-ballistic, extremely low-altitude trajectory.

<span class="mw-page-title-main">Hwasong-7</span> Mobile medium-range ballistic missile

The Hwasong-7, also known as Nodong-1, is a single-stage, mobile liquid propellant medium-range ballistic missile developed by North Korea. Developed in the mid-1980s, it is a scaled-up adaptation of the Soviet R-17 Elbrus missiles, more commonly known by its NATO reporting name "Scud". The inventory is estimated to be around 200–300 missiles. US Air Force National Air and Space Intelligence Center estimates that as of June 2017 fewer than 100 launchers were operationally deployed.

<span class="mw-page-title-main">Abdul Qadeer Khan</span> Pakistani nuclear physicist (1936–2021)

Abdul Qadeer Khan,, known as A. Q. Khan, was a Pakistani nuclear physicist and metallurgical engineer who is colloquially known as the "father of Pakistan's atomic weapons program".

<span class="mw-page-title-main">Pakistan and weapons of mass destruction</span>

Pakistan is one of nine states that possess nuclear weapons. Pakistan began developing nuclear weapons in January 1972 under Prime Minister Zulfikar Ali Bhutto, who delegated the program to the Chairman of the Pakistan Atomic Energy Commission (PAEC) Munir Ahmad Khan with a commitment to having the device ready by the end of 1976. Since PAEC, which consisted of over twenty laboratories and projects under reactor physicist Munir Ahmad Khan, was falling behind schedule and having considerable difficulty producing fissile material, Abdul Qadeer Khan, a metallurgist working on centrifuge enrichment for Urenco, joined the program at the behest of the Bhutto administration by the end of 1974. Producing fissile material was pivotal to the Kahuta Project's success and thus to Pakistan obtaining the capability to detonate a nuclear weapon by the end of 1984.

<span class="mw-page-title-main">Sonmiani Flight Test Range</span> Pakistani rocket launch facility

The Flight Test Range (FTR) at Sonmiani Beach is a rocket launch site in Balochistan, approximately 50 kilometres (31 mi) west of Karachi, Sindh, Pakistan.

The Ghaznavi, is a land-based short range ballistic missile, currently in military service with the strategic command of the Pakistan Army.

<span class="mw-page-title-main">Ghauri (missile)</span> Pakistani Medium-range ballistic missile (MRBM)

The Ghauri–I is a land-based medium-range ballistic missile, in current service with the strategic command of the Pakistan Army.

<span class="mw-page-title-main">Babur (cruise missile)</span> Subsonic cruise missile

The Babur is an all-weather, subsonic cruise missile developed and designed by the National Defence Complex (NDC) of Pakistan.

<span class="mw-page-title-main">Hatf-I</span> Pakistani tactical ballistic missile

The Hatf I is a land-based tactical and battlefield range ballistic missile, currently in service with the strategic command of the Pakistan Army.

<span class="mw-page-title-main">Abdali-I</span> Short-range ballistic missile

The Abdali is a land-based tactical ballistic missile currently in military service with the strategic command of the Pakistan Army.

The Ghauri-II is a land-based medium range guided ballistic missile designed and developed by the Khan Research Laboratories.

The Ghauri-III was the codename of a rocket program aimed at developing land-based medium range ballistic missile to fulfill Pakistan's objective of attaining a ground-based second-strike capability.

<span class="mw-page-title-main">Samar Mubarakmand</span> Pakistani nuclear physicist (born 1942)

Samar Mubarakmand is a Pakistani nuclear physicist known for his research in gamma spectroscopy and experimental development of the Charged Particle Accelerator at the Pakistan Institute of Nuclear Science & Technology (PINSTECH).

The Shaheen-II, is a land-based medium-range ballistic missile currently in deployed in military service with the strategic command of the Pakistan Army.

<span class="mw-page-title-main">Shaheen-III</span> Pakistani Medium-range ballistic missile (MRBM)

The Shaheen-III, is a land-based medium range ballistic missile, which was test fired for the first time by military service on 9 March 2015.

<span class="mw-page-title-main">Shaheen-I</span> Pakistani short-range ballistic missile

The Shaheen-I, is a land-based short-range ballistic missile designed and developed by the National Defence Complex and National Engineering & Science Commission.

Dr. Salim Mehmud, also known as Salim Mehmood, is a Pakistani rocket scientist and a nuclear engineer. Mehmud worked in the Apollo Program for NASA. He is the former chairman of Space and Upper Atmosphere Research Commission (SUPARCO). He has served as chief scientist at the Defence Science and Technology Organization. Currently, he is the chief Scientific and Technological Advisor at the Ministry of Communications of Pakistan.

The Nasr, is a solid fueled tactical ballistic missile system developed by the National Development Complex (NDC) of Pakistan, currently in service with the Pakistan Army.

<span class="mw-page-title-main">Ra'ad</span> Pakistani air-launched cruise missile

The Ra'ad, is a subsonic, standoff air-launched cruise missile (ALCM) jointly designed and developed by the National Engineering & Scientific Commission (NESCOM) and Air Weapons Complex.

References

  1. 1 2 3 4 5 6 Lodhi, Lt.Gen. S.F.S. (31 May 1998). "Pakistan's Missile Technology". Defence Journal, 1998. Archived from the original on 21 February 1999. Retrieved 21 November 2014.
  2. Daheem, Mohammad (18 October 2012). "Pakistan's missile capability". Pakistan Observer, 2012. Pakistan Observer. Archived from the original on 29 November 2014. Retrieved 21 November 2014.
  3. Karim, Afsir (1996). Indo-Pak relations : viewpoints, 1989-1996. New Delhi: Lancer. ISBN   189782923X . Retrieved 21 November 2014.
  4. "Pakistan Missile Milestones - 1994". Wisconsin Project on Nuclear Arms Control. 1 September 2014. Retrieved 20 August 2023.
  5. Hans M. Kristensen, Robert S. Norris & Julia Diamond (2018) Pakistani nuclear forces, 2018, Bulletin of the Atomic Scientists, 74:5, 348-358
  6. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Khan, Feroz (7 November 2012). "Pakistan's Missile Quest". Eating Grass: The Making of the Pakistani Bomb (google books). Stanford University Press. p. 500. ISBN   978-0-8047-8480-1 . Retrieved 10 September 2023.
  7. 1 2 Chitkara, M.G. (1996). Benazir – a profile. New Delhi: APH Publ. Corp. ISBN   8170247527 . Retrieved 22 November 2014.
  8. Beg, M.A. (6 April 1998). "Ghauri won't rock the region". Dawn . Retrieved 21 November 2014.
  9. Chakma, Bhumitra (2004). Strategic dynamics and nuclear weapons proliferation in South Asia : a historical analysis. Bern: Peter Lang. ISBN   3039103822.
  10. Collins, Catherine. "Tale of Two Bhuttos". Foreign Policy. Retrieved 22 November 2014.
  11. Hussain, Zahid (2008). Frontline Pakistan : the path to catastrophe and the killing of Benazir Bhutto (New ed.). Delhi: Penguin India. ISBN   978-0143064794.
  12. MacFarquhar, Emily. "Benazir and the Bomb". Alicia Patterson Foundation. Retrieved 22 November 2014.
  13. "Aitzaz calls for introduction of fresh blood in PPP". GEO TV. 18 October 2014. Retrieved 22 November 2014.
  14. "Pakistan Launches Indigenous ALCM Again | Defense: Aviation International News". ainonline.com. Retrieved 7 February 2015.
  15. 1 2 3 Abbas, Zaffar (28 May 2002). "Pakistan's missile symbolism". BBC, Pakistan Bureau. BBC. Retrieved 26 December 2014.
  16. Khan, Zafar (17 July 2014). Pakistan's Nuclear Policy: A Minimum Credible Deterrence. Routledge. ISBN   978-1-317-67600-3 . Retrieved 10 September 2023.
  17. "Timelime of Missiles". Pakistan Defence Consortium. Archived from the original on 24 September 2015. Retrieved 22 November 2014.
  18. "Pakistan derives its first 'Hatf' missiles from foreign space rockets," The Risk Report, October 1995, p. 5
  19. "MissileThreat :: Hatf 1 :: Missiles of the World". Archived from the original on 8 October 2007. Retrieved 7 February 2015.
  20. 1 2 3 4 "Hatf 3 (Ghaznavi) (Pakistan), Offensive weapons". Janes. Retrieved 16 June 2011.
  21. Khalid, Hanif. "How 'Shaheen' Was Developed". Khalid Hanif, original article at Jang Newspapers. Retrieved 22 November 2014.
  22. "Pakistan Seeks To Counter Indian ABM Defenses". missilethreat.com. Missile Threat. Retrieved 22 November 2014.
  23. "Pakistan conducts first flight test of Ababeel surface-to-surface missile". Dawn . Retrieved 24 January 2017.
  24. surface to surface missile, Hatf-V (Ghauri), 6 April 1998
  25. 1 2 Ansari, Usman (28 May 2012). "Pakistan Test-Fires Medium-Range Ballistic Missile". Defence News. Defence News. Archived from the original on 19 July 2013. Retrieved 22 November 2014.
  26. "Musharraf stopped funds for Ghauri-III missile saying: "Do you want to destroy Israel"". The News International (thenews.com.pk). 28 May 2011. Archived from the original on 1 October 2011. Retrieved 28 May 2011.
  27. "Pakistan test-fires nuclear-capable Babur missile with 700 km range". The Times of India . Archived from the original on 18 September 2012.
  28. "Pak test fires Hatf VII nuclear missile". The Hindu. Chennai, India. 5 June 2012.
  29. "Pakistan fires 'first submarine-launched nuclear-capable missile'". Reuters. 10 January 2017. Retrieved 26 July 2017.
  30. "Pakistan test-fires first submarine cruise missile Babur-3". AryNews.tv. 9 January 2017. Retrieved 26 July 2017.
  31. "Pakistan 'launches first cruise missile from submarine'". BBC News. 9 January 2017. Retrieved 26 July 2017.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.