Pakistan Institute of Nuclear Science & Technology

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Pakistan Institute of Nuclear Science and Technology
PINSTECH logo.jpg
Established21 December 1965 (1965-12-21)
Field of researchNuclear and basic science
Location Nilore in Islamabad, Pakistan
Affiliation Institute of Engineering and Applied Sciences
Operating agency Pakistan Atomic Energy Commission
Website pinstech.com.pk

The Pakistan Institute of Nuclear Science & Technology (PINSTECH) is a federally funded research and development laboratory in Nilore, Islamabad, Pakistan. [1] [2]

Contents

The site was designed by the American architect Edward Durell Stone and its construction was completed in 1965. It has been described as "[maybe] the most architecturally stunning physics complex in the world". [3]

In response to the war with India in 1971, the lab was repurposed as a primary weapons laboratory from its original civilian mission. [3] Since the 1990s, the lab has been focused increasingly on civilian mission and it maintains a broad portfolio in providing research opportunities in supercomputing, renewable energy, physical sciences, philosophy, materials science, medicine, environmental science, and mathematics. [4] [5]

Overview

The Pakistan Institute of Nuclear Science & Technology (PINSTECH) is one of nation's leading research and development Institution affiliated to the national security. [6] It is a principle national laboratory that has the responsibility by ensuring the safety, security, and reliability of nation's nuclear weapons program by advancing applications in science and technology.:84 [7]

The PINSTECH is located in Nilore, about 15 mi (24 km) southeast of Islamabad, and was designed by the American firm, AMF Atomics and Edward Durell Stone who once worded: "This....has been my greatest work. I am proud that it looks like it belongs in this country..":56–57 [7] [3]

Since owned by the Government of Pakistan, its managed by Pakistan Atomic Energy Commission. [7] The scientific research programs are supported at the laboratory through the Pakistan Institute of Engineering and Applied Sciences, also in Nilore. [6] The laboratory covers around 400 acres (1.6 km2) area. [6] [3]

History

Edward Stone presents the Pakistan Institute of Nuclear Science & Technology (PINSTECH) model to President Ayub Khan in 1961. President Ayub Khan viewing the (PINSTECH) modelNovember 1961.jpg
Edward Stone presents the Pakistan Institute of Nuclear Science & Technology (PINSTECH) model to President Ayub Khan in 1961.

The establishment of the Pakistan Institute of Nuclear Science & Technology (Pinstech) was embodiment of the Atoms for Peace initiative in 1953 and a long-sought initiative led by Abdus Salam who was lobbying for a professional physical laboratory since 1951. [8] Budget constraints and lack of interests by the government administration had left a deep impression on Salam who was determined to establish to create an institution to which scientists from the developing countries would come as a right to interact with their peers from industrially advanced countries without permanently leaving their own countries. [8] Construction of the Pinstech began when Salam who was able to find funding from the United States in 1961. [8]

Eventually, Salam and I. H. Usmani approached Glenn T. Seaborg for the further funding of the laboratory from the United States government, which stipulated the fund if the Pakistan Atomic Energy Commission were to set up a research reactor of their own at sum of US$ 350,000.:269 [9] Contrary to United States' financial pledges, it was reported that the actual cost of building the Pinstech was neared at US$ 6.6 million ($63.8 million in 2023) that was funded and paid by the Pakistani taxpayers in 1965. [3]

From 1965–69, the Pinstech had an active and direct laboratory-to-laboratory interaction with the American national laboratories such as Oak Ridge, Argonne, Livermore, and Sandia.:269 [9] [10] [11]

The scientific library of the institute consisted of a large section containing historical references and literatures on the Manhattan Project, brought by Abdus Salam in 1971 prior to start of the nuclear weapons program under Zulfikar Ali Bhutto's administration.:51–100 [12]

The Pakistan Atomic Energy Commission (PAEC) hired the laboratory's first director Rafi Muhammad, a professor of physics at the Government College University, Lahore (GCU), who affiliated the Pinstech with the Quaid-i-Azam University in 1967, bearing some special materials testing. [13] Soon, the scientists from Institute of Theoretical Physics of the Quaid-i-Azam University had an opportunity to seek permanent research employment in physics at the laboratory. [8]

Major Projects

Strategic deterrence

After the costly war with India in 1971, the re-purposing of the Pinstech Laboratory was difficult since it was never intended to be a weapons laboratory. [3] Initially, the plutonium pit production at Pinstech was quite difficult together with its tiny research reactor that could never be a source of weapons-grade plutonium. [3] In spite of its short-comings, the investigations and classified studies on understanding the equation of state on plutonium was started the physicists at the Pinstech laboratory in 1972. [3] The Pinstech laboratory became a main research and development laboratory when it initiated its ingenious program for the production of plutonium oxide (plutonia) and uranium oxide (Urania) in 1973.:106 [7]

The Pinstech laboratory was also a learning center for gaining expertise in nuclear fuel cycle which it provided training to other facilities after learning the very basic knowledge from the European industries prior to 1969. [3] At the Pinstech laboratory, a pilot plant (New Labs) was built for reprocessing spent reactor fuel into plutonium pit production. [3] Besides its fundamental and basic programs on physical sciences, the laboratory provided a ground for the Pakistani scientists to design and engineer weapon designs, with many feared that India was rapidly developing a nuclear bomb. [7]

As Nilore became restricted site, the research efforts were directed towards working on understanding and producing first the reactor-grade plutonium and eventually to military-grade plutonium from the spent fuel rods by undergoing a chemical process, "reprocessing".:138 [7] The design work had carried out on 20 different laboratories at the lab, and it was its New Labs facility of the lab that was able to produce the first batch of the weapon grade plutonium of 239 Pu by 1983.:191 [7] This weapon-grade plutonium was the source material that was carried on a nuclear test conducted at the Ras Koh Range on 30 May 1998.:205 [7]

Nuclear fuel cycle

The scientists at the Pinstech laboratory initiated the studies on understanding the ingenious nuclear fuel cycle in spite of having basic familiarity.:115 [7] In 1973, the lab conducted several studies on understanding the properties of uranium oxide, eventually producing the first fuel bundle in 1976 that was shipped to the Karachi Nuclear Power Plant to keep its grid operations running.:106 [7] The Pinstech also took initiatives in learning and understanding the chemistry of uranium hexafluoride, which the technology was transferred to the Islamabad Uranium Conversion Facility in 1974.:115–116 In addition, the understanding of UF6 eventually led in producing the Zircaloys, which it was also produced at the lab first; and later having it transfer the technology to the Kundian Nuclear Fuel Complex in 1980.:115–116

As of today, PINSTECH has been shifted to peacetime research in medicine, biology, materials and physics. Its Molybdenum-42 facility was used to medical radioisotopes for treating cancer. Scientists from Nuclear Institute for Agriculture and Biology (NIAB) and Nuclear Institute for Food and Agriculture (NIFA) had been using the PINSTECH facilities to conduct advanced research in both medical and food sciences.

Plutonium research

The Pakistan Post released its stamp to honor the Pinstech in 1965. Pakistan's First Atomic Reactor on Pakistan stamp.jpg
The Pakistan Post released its stamp to honor the Pinstech in 1965.

Since its repurposing in 1972, the Pinstech laboratory conducts research into understanding the equation of state of plutonium, its phase diagrams, and its properties.:200 [7] In 1987, the Pinstech developed a technology by fabricating a Chromium kF39 and developed an innovative technique, "in-stu leaching", which allowed the extraction of actinides from the uranium ore without the need for conventional milling.:113 [7]

The computer scientists at the Pinstech Laboratory had built a supercomputer based on the vintage IBM computer architecture that allowed the physicists at the Pinstech to model the behavior of plutonium without the actual nuclear testing.:176 [7] Research work on plutonium is conducted at its special-purpose facility, the New Laboratories, where the weapon-grade nuclear explosives are designed and manufactured. [3] Much of the work on plutonium is, however, is subjected to classified information. [3]

The Centralized Analysis Facility (CAF) has been utilized chemistry on plutonium and other areas of actinides sciences are studied and conducts experiments at the Central Diagnostic Laboratory (CDL); both of labs are the most potent facilities in Pakistan. [3]

Besides its national security mission, the lab promotes applications of radiation and isotope technology in various scientific and technological disciplines to support the nation. [3] It is also working on important non-nuclear fields, which are crucial for the development of science and technology in the country. In 2020, expansion work was started at Pinstech lab to help its "ability to produce isotopes for medical use, especially for preparation of radiopharmaceuticals for cancer patients while also helping the country in its aspirations in other applications of peaceful use of nuclear technology." [1]

Nuclear reactors

PINSTECH has particle accelerators and also operates two small nuclear research reactors, a reprocessing plant and another experimental neutron source based on:

Research divisions

The PINSTECH four research directorates and each directorate is headed by an appointed Director-Generals. The following PINSTECH Divisions are listed below:

Directorate of Science

Physics Research Division (RPD)

The directorate of science consists of four division, and each divisions are headed by deputy director-generals. In 2004, the PINSTECH administration had brought together all of the groups, and were merged into one single Division, known as Physics Research Division (PRD). [14] Meanwhile, the PINSTECH had also merged Nuclear Physics Division (NPD) and Radiation Physics Division (RPD), Nuclear and Applied Chemistry Divisions as well. The below is the list of research groups working in RPD.

Chemistry Research Division (CRD)

Directorate of System and Services

The Directorate of System and Services (DSS, headed by Dr. Matiullah, consists of 5 research divisions that are listed below:

Directorate of Technology

The Directorate of Technology (D-TECH) consists of 3 divisions that are Materials Division (MD), Isotope Application Division (IAD), and the Isotope Production Division (IPD).This is currently overseen by Dr. Gulzar Hussain Zahid, Chief Engineer.

Directorate of Coordination

The Directorate of Coordination, headed by Engr. Iqbal Hussain Khan, is an administrative directorate which consists of 3 technical support divisions. Computation, Information, Communication Technologies (CICT)/Management Information System (MIS) Division, The Scientific Information Division (SID), Programme Coordination Division (PCD) are included in this division.

User facilities

Director generals (DGs) of PINSTECH

NumbersNameTimeline of Directors Alma Mater FieldEducational Background
1 Rafi Muhammad Chaudhry 1965–1970 University of Cambridge (Cavendish Laboratory) Nuclear physics Ph.D
2 Abdus Salam 1970–1971 Imperial College Theoretical physics Ph.D
3 Ishfaq Ahmad 1971–1976 Université de Montréal (Montreal Laboratory)Nuclear physics D.Sc.
4 Munir Ahmad Khan 1976–1977 North Carolina State University (Argonne National Laboratory) Nuclear engineering Master of Science (M.Sc.)
5Naeem Ahmad Khan1977–1984 University of Manchester Nuclear physicsPh.D
6Iqbal Hussain Qureshi1986–1991 University of Tokyo Nuclear chemistry Ph.D
7 Noor Muhammad Butt 1991–1996 University of Birmingham Nuclear physicsD.Sc.
8Hameed Ahmad Khan1996–2000 University of Birmingham Nuclear, Space, and reactor physics D.Sc. and Ph.D
9Mustansar Jehangir2000–2005 University of Birmingham Nuclear chemistryPh.D
10 Masud Ahmad 2005–2007 Imperial College Theoretical physicsPh.D
11 Ansar Pervaiz 2007–2010 Rensselaer Polytechnic Institute Nuclear engineeringPh.D
12Syed Jamshed Hussain Zaidi2010–Present University of Peshawar, Forschungszentrum Jülich Nuclear chemistryPh.D

Notes

  1. It was founded as Fast Neutron Physics Group by Dr. Samar Mubarakmand in 1979. The FNPG was involved in the designing of a country's first nuclear weapon
  2. The EMM Group was founded by Dr. N.M. Butt in 1966 that had produced world acclaim research in Mossbauer Spectroscopy
  3. The Mathematics Physics Group, otherwise known as Math Group, was founded in 1972, with Theoretical Physics Group, by Raziuddin Siddiqui who also served its first director. The Math Group was mandate to conduct mathematical calculations in implosion designs and concepts. It earned prestige in 1978 when the Group, worked under Asghar Qadir, finished the solved complex calculations involved in nuclear fission and chain reaction
  4. The Theoretical Physics Group or TPG, was founded and established by Dr. Abdus Salam who served its first Director in 1972 until 1974. The TPG, under Salam's directorial guidance, was tasked to developed the nuclear weapons designs and mathematical calculations involving the nuclear weapons. Later, The TPG had first successfully designed the first theoretical design and completed calculations in nuclear weapon in 1978, under Dr. Riazuddin
  5. Dr. Iqbal Hussain Qureshi (Dr. I.H. Qureshi) was one of the leading scientists who were involved in the development of a nuclear weapon in the early 1970s. Dr. I.H. Qureshi has had led NCD in the development of fissionable materials in the device. Dr. I.H. Qureshi had famously discovered 6
    3    Li
    +2
    1    H
    4
    2    He
    +22.4  MeV equation for balancing the Q-value and energy balance in a fission device.
  6. The Isotope Application Division (IAD)was founded by Dr. Naeem Ahmad Khan in 1971. Hafeez Qureshi was made director general of the RIAD Division. The RIAD was the first division that had put efforts in the development of the fission device in 1972.
  7. The Isotope Production Division (IPD) was founded by Mr. M. Bashar Khan in 2002. M. Khalid was made Head of the RIPD Division. The RIPD was the only division in generating funds and have been involve in producing and catering the nuclear medical center needs on regular basis.

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References

  1. 1 2 Foundation stone laid down for expansion work at PINSTECH The News International (newspaper), Published 16 October 2020, Retrieved 18 December 2020
  2. et. al. staff writer. "PINSTECH's research and Development". PAEC, PD.
  3. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Leslie, Stuart W. (2015). "Pakistan's nuclear Taj Mahal". Physics Today . 68 (2): 40–46. Bibcode:2015PhT....68b..40L. doi:10.1063/PT.3.2688 . Retrieved 26 June 2023.
  4. Bashir, Asif (12 May 2012). Akhter, PhD, Javed Iqbal; Khan, Iqbal Hussain (eds.). "Editor's Corner" (PDF). PINSTECH Newsletter. 2 (16).
  5. "Collaboration is key as Pakistan ramps up its radioisotope R&D". CERN Courier. 21 December 2022. Retrieved 26 June 2023.
  6. 1 2 3 et. al. Unknown. "Pakistan Institute of Nuclear Science and Technology". Pakistan Chemistry Society. Retrieved 18 December 2020.
  7. 1 2 3 4 5 6 7 8 9 10 11 12 13 Khan, Feroz Hassan (2012). Eating grass the making of the Pakistani bomb. Palo Alto: Stanford University Press. ISBN   978-0804784801 . Retrieved 18 December 2020.
  8. 1 2 3 4 Fraser, Gordon (2010). Cosmic Anger: Abdus Salam - The First Muslim Nobel Scientist. Oxford University press. ISBN   978-0191578663 . Retrieved 18 December 2020.
  9. 1 2 Brink, Lars; Duff, Michael James; Phua, Kok Khoo (21 March 2017). Memorial Volume On Abdus Salam's 90th Birthday. World Scientific. ISBN   978-981-314-488-0 . Retrieved 25 February 2024.
  10. Hasnain, PNRA, S.A (7 December 2005). "Dr. I.H. Usmani and the Early Days of the PAEC" (PDF). The Nucleus. 42 (1–2). Islamabad: 13–20. Retrieved 16 November 2014.
  11. Ahmad, Syed; Ahmad, Mansoor; Khan, H. "Timelime". Pakistan Defence Consortium. Retrieved 16 November 2014.
  12. Shahidur Rehman, §The Theoretical Physics Group, A Cue from Manhattan Project?, pp51-100, Long Road to Chagai, 1999, Printwise Publications.
  13. Lai, editors, Z. Hassan & C.H. (1983). Ideals and realities : selected essays of Abdus Salam. Singapore: World Scientific. ISBN   9971950871 . Retrieved 18 December 2020.{{cite book}}: |first1= has generic name (help)CS1 maint: multiple names: authors list (link)
  14. "Physics Research Division". Archived from the original on 19 June 2006.
  15. "Nuclear Chemistry Division". Archived from the original (Web cache) on 4 January 2005.
  16. "Health Physics Division". Archived from the original (Web cache) on 2 January 2005.
  17. The Nuclear Engineering division was used in the designing and construction of PARR-II.
  18. "Nuclear Engineering Division". Archived from the original on 4 October 2006.
  19. "Electronics Division". Archived from the original (Web cache) on 4 October 2006.
  20. The PARR-I Upgradation Program was led by Munir Ahmad Khan in 1991. Further discussion can be read at PARR-I Reactor
  21. "General Services Division". Archived from the original (Web cache) on 4 October 2006.
  22. "Computer Division". Archived from the original on 30 October 2009.
  23. "Nuclear Material Division". Archived from the original (Web cache) on 4 January 2005.
  24. "Radiation Isotope Application Division". Archived from the original (Web cache) on 4 October 2006.
  25. "Radiation Isotope Application Division". Archived from the original (Web cache) on 4 October 2006.
  26. "Scientific Information Division". Archived from the original (Web cache) on 4 October 2006.
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