Featured Materials
A curated selection of images, terms and collections to help understand modern conflict.
Iran War 2026
Munition images from the ongoing Middle East conflict
Shahed-131 & -136 UAV
3D models explain the best-known 'kamikaze drones'
Collection
Munition images from the Gaza war
GBU-39 bomb
3D model explaining Israel's 'weapon of choice' in Gaza
Research organisation
Images from the Human Rights Watch archives
Collection
Munition images from the Ukraine war
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Submit images to the OSMP
OSMP referenced in media and research
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BBC uses OSMP to investigate new U.S. missile
NYT uses OSMP to identify Iran school munition
AP highlights images of Iranian submunitions
The Incendiary Bomb Never Seen in Israel Before
UN report highlights OSMP importance
GIJN’s Top Investigative Tools of 2024
How GBU-39 bombs became Israel’s ‘weapon of choice’
701–800 of 1,690
Analyst Note:
This image shows the flare from a Terminal High Altitude Area Defense (THAAD) system's ‘Talon’ kinetic interceptor missile. The flare is located at the aft end of the missile's booster engine. The ‘petals’ of the flare are initially flush, and are actuated into the deployed position, seen here, as part of the missile‘s functioning. (ARES)
Analyst Note:
This image shows a fragment of the “inner petal assembly” of a Terminal High Altitude Area Defense (THAAD) system’s ‘Talon’ interceptor missile. The part number for the assembly (“23917ASSY1A62803-101 REV.E / E”), Commercial and Government Entity (CAGE) code (“07554”), manufacturer abbreviation (“CTL”), and serial number (“S/N DDLKD”) are visible. This CAGE code and manufacturer abbreviation are associated with CTL Aerospace Inc, a subcontractor for Lockheed Martin, the manufacturer of the THAAD system. It is not uncommon for complex munitions to be made by several different manufacturers, and thus multiple CAGE codes may be present as a result of the various subcontractors. (ARES)
Analyst Note:
This image shows three different warheads developed by Russia for the Shahed-136/Geran-2 one-way attack (OWA) unmanned aerial vehicle (UAV), each of which differ from the original warhead designed by Iran for the Shahed-136. Left: A thermobaric explosive warhead; Middle: TBBCh-50M, a thermobaric explosive warhead; Right: OFZBCh-50, a high explosive warhead with an incendiary effect. Each of these warheads is also fitted with a fragmentation liner to increase the fragmentation effect generated when the warhead detonates. Some of the fragmentation liners may contain zirconium, a metal which is ignited when the warhead detonates, providing an additional incendiary effect. (ARES)
Analyst Note:
This image shows a Mikholit glide bomb, with its warhead removed (green cylinder on the left side of the box). The fins that spring outward when deploye have been taped down. This Mikholit was reportedly recovered by the Israeli Defense Forces (IDF) from Hamas, who had captured the bomb after it failed to function when originally deployed by the IDF. (ARES)
Analyst Note:
This image shows two Mikholit air-delivered bombs (‘glide bombs’), and four Mikholit warheads. There are at least two different variants of warheads available for the Mikholit glide bomb. The green cylinder on the left is a blast (high explosive) warhead, whilst the other three warheads are shaped charge warheads which incorporate additional fragmentation. Blast warheads of this type have also been seen with red markings, while the shaped charge warheads have been seen with yellow markings. (ARES)
Analyst Note:
This image shows various remnants from GBU-39 air-delivered bombs, including two fuze wells. Each GBU-39 has only a single fuze well, indicating that this picture shows the remnants of at least two different GBU-39 bombs. (ARES)
Analyst Note:
This image and the related entries show fragments of an AGM-84 Standoff Land Attack Missile-Expanded Response (SLAM-ER) series missile. AGM-84 SLAM-ER missiles are AGM-84E Standoff Land Attack Missiles (SLAM) that incorporate certain upgrades, including wings to increase the missile's range. The AGM-84 series include the anti-ship ‘Harpoon’ variants, from which the SLAM and SLAM-ER series are derived. As a result, many remnants will be similar or identical between variants. The wing remnant here is diagnostic, however. (ARES)
Analyst Note:
This image shows the rear fin section that is attached to a M-302/Khaibar-1/Fadi series rockets to add guidance capabilities. This rear fin section is installed, along with a forward control section between the warhead and the rocket motor. The guided munition, now classified as a missile, is referred to as a Nasr-1/Nasr-2. A similar, but larger, rear fin section is fitted to Zelzal rockets to convert them to guided munitions. (ARES).
Analyst Note:
This image shows a MXU-735 solid nose plug that can be installed in the nose fuze well of a MK 80-series aerial bomb in place of a fuze. (ARES)
Analyst Note:
This image shows several GBU-53/B bombs photographed from above while on a munitions transport cart. GBU-53/B bombs are transported and loaded onto the aircraft with the wing assembly on the bottom. When the GBU-53/B is released from the aircraft, the bomb rotates, with the wing assembly side orienting as the top as the bomb glides to its target. (ARES)
Analyst Note:
This image shows a fragment of a RGM/UGM-109 Tomahawk Land Attack Missile (TLAM) series missile's WDU-36/B warhead. The WDU-36/B warhead is a penetrator warhead for the TLAM, and is one of several available warhead options for TLAM series missiles. The complete "WDU" designation isn't visible, but the part number (3123AS921) is associated with the WDU-36/B. (ARES)
Analyst Note:
This image shows a strake from a Joint Direct Attack Munition (JDAM) guidance kit (KMU-557/558) as fitted to 2,000-pound BLU-109-series penetrator bombs. (ARES)
Analyst Note:
This image shows the rocket motor of a Kheibar Shekan or Fattah-1 medium-range ballistic missile (MRBM). The Fattah-1 was publicly unveiled by Iran in June 2023, with very few images surfacing since that time. Due to the lack of available reference material, differentially identifying the Kheibar Shekan and Fattah-1 is difficult. The missile components displayed at unveilings and public displays are also often different from those used in production models. (ARES).
Analyst Note:
This image shows the copper cone of the shaped charge located at the front of the warhead fitted to a Shahed-131. The Ukrainian armed forces have recorded that the cone measures 111 mm in diameter and 162 mm in depth. The warhead is lined with cubic pre-formed fragments of 7 mm in diameter. The explosive content of the warhead is estimated to be between 10 and 15 kg. (ARES)
Analyst Note:
This image shows two MAM-L guided air-delivered bombs affixed to the wing of a Bayraktar TB2 drone. The MAM-L and TB2 are both produced in Türkiye by Roketsan and Baykar respectively. The MAM-L can have one of three different warheads: blast fragmentation, anti-tank, or thermobaric. The warhead section of each MAM-L in this image has “YIPE/BF” visible. ‘YIPE’ is the abbreviation of the warhead type in Turkish: Yüksek Infilaklı Parçacık Etkili (‘high explosive fragmentation’, in English). The ‘BF’ also indicates that these MAM-L munitions are of the blast-fragmentation variant. The warhead of a MAM-L cannot be determined from an external assessment without viewing markings such as these (or a clear view of the data plate, which can be seen on the aft portion of the MAM-L). (ARES)
Analyst Note:
This image shows several remnants of a MAM-L bomb that are typically found after functioning. The actuated fins, as well as the fixed fins, are visible, along with various components of the control section that actuate the fins. The actuated fins attach to the control section, at the rear of the bomb, while the fixed fins attach to the middle of the bomb body. (ARES)
