Islamic Revolutionary Guard Corps Aerospace Force


The Islamic Revolutionary Guard Corps Aerospace Force, officially known as the Islamic Revolutionary Guard Corps Air and Space Force, is the strategic missile, air, and space force of the Islamic Revolutionary Guard Corps. It was renamed from the IRGC Air Force to the IRGC Aerospace Force in 2009.
The force's commander, Amir Ali Hajizadeh, was killed along with 20 other senior officers during the series of Israeli strikes launched on 13 June 2025. The role was vacant for a day before being filled by Majid Mousavi.

Aviation forces

Most American public sources disagree and argue on which aircraft are operated by the AFAGIR.
The Washington Institute for Near East Policy said in 2005 that "he backbone of the IRGCAF consists of ten Su-25 Frogfoot attack aircraft, including seven flown from Iraq to Iran during the 1991 Gulf War, kept airworthy with the help of Georgian technicians, although reports indicate that all of the IRGCAF aircraft have been sold to Iraq in July 2014, to increase the latter's for CAS and COIN for fighting against ISIS capabilities. All of them were replaced by Su-22", all of them flown from Iraq to Iran during 1991 Gulf War, and around forty EMB-312 Tucanos".
The Washington Institute said that the IRGCAF maintained thirty Y-12 and Dassault Falcon 20 light transports, as well as MFI-17 Mushshak and Super Mushshak trainers, and locally built Ababil and Mohajer reconnaissance unmanned aerial vehicles.
The AFAGIR also operates a sizable rotary-wing force consisting of around twenty Mi-171 helicopters for transport and armed assault roles, and a large transport force out of Shiraz, equipped with around fifteen ex-Iraqi Il-76s, originally operated by the IRIAF, and twelve An-74TK-200 transports. Scramble backs up this picture in general, reporting An-74s, An-14s, and Su-22 at Tehran Mehrabad, Chengdu F-7Ms at Zahedan, while saying that MFI-17s were often reported at Zahedan incorrectly, and Il-76 AEW variants at Shiraz Shahid Dastghaib International Airport, while saying that they might be based at Mehrabad.
Other later writings make no mention of Il-76s. Anthony Cordesman of the Center for Strategic and International Studies, writing in August 2007, said only the AFAGIR "may operate Iran's 10 EMB-312 Tucanos", and that it "seems to operate many of Iran's 45 PC-7 training aircraft" as well as Pakistani-built training aircraft at a school near Mushshak, "but this school may be run by the regular air force". He said that reports of the Revolutionary Guards operating F-7s did not seem to be correct.
Cordesman noted claims of the AFAGIR building gliders for use in unconventional warfare, saying that they would be unsuitable delivery platforms, but could at least carry a small number of weapons. However the attached reference was a 1996 Reuters report, making the sources for such assertions extremely thin. The IISS Military Balance 2007 makes no mention of aircraft, referring only to the Shahab 1, 2, and 3 missiles.
In October 2009, it was announced that its name has been changed from IRGC Air Force to IRGC Aerospace Force.
In February 2014, Jane's announced that the Barani missile system had been tested. This system is a laser-guided air-to-surface missile which releases submunitions: "new generation of long-range ballistic missiles carrying multiple re-entry vehicle MIRV payloads". The UN Panel of Experts identified it as a variant of the Shahab and questioned its alleged multiple re-
entry vehicle capability, suggesting instead that it carried sub-munitions.
The Bina missile, which can be carried aloft and is able to be ground-launched from a rail car, was also revealed at the time.

Current aircraft inventory

Aircraft on loan

The Aerospace Force owns some civilian aircraft. As of 2017, six Russian-made transport planes were reportedly leased to Pouya Air, and two more Embraer ERJ-145ER jets acquired.

Missile forces

The IRGC Aerospace Force is responsible for the operation of Iran's surface-to-surface missile systems. In 2006 it was mentioned by John Negroponte that Iran held the largest inventory of ballistic missiles in the Middle East. In August 2013, Ahmad Vahidi former defense minister of Iran said that his country was ranked sixth in the world in missile production. It is claimed to operate several thousand short- and medium-range mobile ballistic missiles, including the Shahab-3/3B with a range of up to 2,100 kilometers, which is the mainstay of Iran's strategic deterrent.
This puts even NATO members Turkey, Greece, Bulgaria and Romania within striking range, if fired from Western Iran. If Iran ever produces nuclear weapons, they fall under the direct supervision of the Aerospace Force. Iran says that it has no intention of producing nuclear weapons. However, there is evidence which points otherwise. A stolen Iranian laptop, containing over 1000 pages of calculations, simulations and modifications required to make the Shahab-3 nose cone capable of carrying a nuclear warhead, was obtained by U.S. intelligence in 2004 and shown to IAEA officials. Additionally, an interview with Alireza Assar, an Iranian physicist formerly tied with the Iranian ministry of defense, revealed the existence of a military nuclear program whose goal was "to produce enough HEU to enable the regime to produce nuclear weapons". Iran's continuous lack of transparency regarding their nuclear program has resulted in much suspicion regarding its intentions.
According to the testimony of John Negroponte in 2006, Iran's ballistic missile development, together with its enhancement of the navy is largely for the projection of its military power, with the goal of dominating the Gulf region and maintaining its ability to deter and retaliate against adversaries, including the United States. Additional reasons for the indigenous development of missiles may include the regime's intent to showcase its technological advancements, to intimidate and deter neighboring countries, and to reduce its reliance on precarious foreign supplies, particularly from North Korea.
The independent production of missiles in Iran can be traced back to at least 1997, when the country obtained missile plans and production components from Russia and began constructing missile production facilities, including the two tunnels for housing Scud missiles at Kuh-e-Padri, located along the Persian Gulf between Bandar Abbas and Bushehr. Additionally, Iran received assistance from China in the construction of the Ballistic missile plant and test range east of Tehran and the production facility near Semnan, as well as guidance technologies and precision machine tools for the production of ballistic missiles. The largest of the missile production facilities in Iran is the complex located near Isfahan, the assembly site of the Scud-B missile kits from North Korea, and was built in cooperation with North Korea and possibly Chinese assistance.
In May 2013, Iran's Ministry of Defense and Logistics delivered a massive number of missile TELs to IRGC AF, "Iranian television footage showed at least 26 TELs lined up in two rows for the event, which marked their purported delivery to the Islamic Revolution Guards Corps Aerospace Force, which operates the country's ballistic missiles", according to the report by IHS Jane's.
Any Iranian long-range intermediate-range ballistic missile or intercontinental ballistic missile would require an extraordinarily effective guidance system and level of reliability to have any real lethality with conventional warheads, even if it could be equipped with a functional GPS guidance platform. It would probably require nuclear warheads in order to compensate for critical problems in accuracy, reliability, and warhead lethality.
In June 2020, Iranian admiral Hossein Khanzadi said that Iran would start producing indigenous Supersonic cruise missiles equipped with turbofan engines soon.

Short range missiles

Solid fuel program

The foundations for this were laid with the Oghab and Shahin-II missiles. These would lead the way for a number of other rocket artillery systems including Fajr-3, Nazeat and Zelzal. The initial effort in this area relied heavily on technical help from the People's Republic of China in the form of assembly and manufacturing contracts during 1991 and 1992. Iran was quick to surpass the Chinese level of assistance and became self-sufficient.
Bina
Bina is a laser guided dual-capability short-range surface-to-surface and air-to-surface missile. It appears to be an AGM-65 Maverick air-to-ground missile with a semi-active laser seeker fitted to its nose. Brigadier General Hossein Dehqan said the ballistic missile had radar-evading capabilities. "The new generation of long-range ground-to-ground ballistic missile with a fragmentation warhead and the laser-guided air-to-surface and surface-to-surface missile dubbed Bina have been successfully test-fired. The Bina missile is capable of striking important targets such as bridges, tanks and enemy command centres with great precision."

Liquid fuel program

After the war, Iran's experience of liquid fuel missiles had purely focused on the reverse engineering of Scud-B missiles. However, with the post war reorganisation the focus of the effort quickly changed and focused on assembly and maintenance. A domestic version of the Scud-B, known as Shahab-1, was developed and manufactured. This led to its successor the Shahab-2, a variant of the Scud-C with a range of 500 to 700 km, and finally the Shahab-3.
Since the end of the war, Iran has consistently attempted to recruit foreign help, as well as its large and highly qualified expatriate population, into its missile program. Iranian expatriates who left with the revolution have been slow to return, but many are now doing so and thus heralding a new age for Iran's missile development programme with their tremendous wealth of technical experience.