Editing Anti-ship missile

{{Short description|Missile used to attack ships}}
{{See also|Anti-ship ballistic missile}}
{{Use British English|date=August 2021}}
[[File:AGM-84 Harpoon launched from USS Leahy (CG-16).jpg|thumb|[[RGM-84 Harpoon]] firing from {{USS|Leahy|CG-16|6}} in 1983]]
[[File:侵犯中華民國航空識別區的轟-6.jpg|thumb|[[Xi'an H-6]] [[Strategic bomber]] armed with [[YJ-12]] supersonic anti-ship cruise missile]]
[[File:Exocet AM39 P1220892.jpg|thumb|The [[MBDA]] [[Exocet]] anti-ship missile under a [[Dassault Rafale]] [[Multirole combat aircraft|multirole fighter]]]]
[[Image:Jelcz P662D43 z wyrzutnia.JPG|thumb|[[Polish Navy]]'s land based [[Naval Strike Missile]] coastal defense system launcher and TRS-15M Odra [[3D radar]] in the background]]

An '''anti-ship missile''' ('''AShM'''<ref name="Ronald O'Rourke 14">{{cite web
| url=https://crsreports.congress.gov/product/pdf/RL/RL33153/263
| title= China Naval Modernization: Implications for U.S. Navy Capabilities—Background and Issues for Congress
| author=Ronald O'Rourke
| date=10 November 2022
| publisher=Congressional Research Service
| quote="...a supersonic Anti-Ship Missile (AShM)"
| archive-url= https://web.archive.org/web/20230705013815/https://crsreports.congress.gov/product/pdf/RL/RL33153/263#page18
| archive-date=5 July 2023
| url-status=live
| page=14
| access-date=2024-04-30
}}</ref> or '''ASM''')<ref name="Peter Ong">{{cite web
| url=https://www.navalnews.com/naval-news/2021/08/will-the-u-s-navy-replace-the-destroyers-harpoon-anti-ship-missiles-with-naval-strike-missiles/
| title=Will The U.S. Navy Replace The Destroyers’ Harpoon Anti-Ship Missiles With Naval Strike Missiles?
| author=Peter Ong
| date=27 August 2021
| publisher=Naval News
| quote="...the aging Harpoon Anti-Ship missiles (ASM)"
| archive-url=https://web.archive.org/web/20230528140343/https://www.navalnews.com/naval-news/2021/08/will-the-u-s-navy-replace-the-destroyers-harpoon-anti-ship-missiles-with-naval-strike-missiles/
| archive-date=28 May 2023
| url-status=live
| access-date=2024-04-30
}}</ref> is a [[guided missile]] that is designed for use against ships and large boats. Most anti-ship missiles are of the [[sea-skimming]] variety, and many use a combination of [[inertial navigation system|inertial guidance]] and [[active radar homing]]. A large number of other anti-ship missiles use [[infrared homing]] to follow the heat that is emitted by a ship; it is also possible for anti-ship missiles to be guided by radio command all the way.

Many anti-ship missiles can be launched from a variety of weapons systems including [[Surface combatant|surface warship]]s (also referred to as '''ship-to-ship missiles'''), [[submarine]]s, [[bomber]]s, [[fighter plane]]s, [[anti-submarine warfare|patrol plane]]s, [[helicopter]]s, [[shore battery|shore batteries]], land vehicles, and, conceivably, even [[infantry]]men firing shoulder-launched missiles. The term '''[[surface-to-surface missile]]''' (SSM) is used when appropriate. The longer-range anti-ship missiles are often called anti-ship [[cruise missile]]s. Several countries  are also developing [[anti-ship ballistic missile]]s.

==Etymology==
[[File:BrahMos MAKS2009.jpg|thumb|right|220px|[[BrahMos]], a [[supersonic cruise missile]], capable of being launched from multiple platforms.<ref>{{Cite web |title=Ship-based Weapon Complex System - BrahMos.com |url=https://www.brahmos.com/content.php?id=15# |access-date=2024-02-24 |website=www.brahmos.com}}</ref>  ]]

Both "AShM"<ref name="Ronald O'Rourke 14"/> and “ASM”<ref name="Peter Ong"/> are utilized interchangeably as an acronym for "anti-ship missile." "AShM" may be the preferred acronym when confusion with "[[air-to-surface missile]]" (commonly abbreviated as "ASM") may occur.

==History==
{{More citations needed|section|date=February 2022}}

During the [[Cold War]], the [[Soviet Union]] turned to a [[sea denial]] strategy concentrating on [[submarine]]s, [[naval mine]]s and the AShM. One of the first products of the decision was the [[P-15 Termit|SS-N-2 Styx]] missile. Further products were to follow, and they were soon loaded onto the [[Soviet Air Force]]'s [[Tu-95 Bear]] and [[Tu-22|Tu-22 Blinder]] bombers, in the case of the air-launched [[KS-1 Komet]].

[[File:Hiddensee P-20 missile.jpg|thumb| P-15 unloaded from missile tube aboard the [[German corvette Hiddensee|USNS Hiddensee]]]]

In 1967, the [[Israeli Navy]]'s destroyer {{INS|Eilat|1955|2}} was the first ship to be sunk by a ship-launched missile—a number of Styx missiles launched by Egyptian {{sclass|Komar|missile boat}}s off the [[Sinai Peninsula]].

In the [[Indo-Pakistani War of 1971]] the [[Indian Navy]] conducted two raids using {{sclass2|Osa|missile boat|1}}s employing the Styx on the Pakistani naval base at [[Karachi]]. These raids resulted in the destruction or crippling of approximately two thirds of the [[Pakistani Navy]]. Major losses included two [[destroyer]]s, a [[fleet oiler]], an [[ammunition ship]], approximately a dozen [[merchant ship]]s, and numerous smaller craft. Major shore-based facilities, including fuel storage tanks and naval installations were also destroyed. The Osas returned to base without loss.

The [[Battle of Latakia]] in 1973 (during the [[Yom Kippur War|Yom Kippur/]]Ramadan War) was the scene of the world's first combat between missile boats. In this battle, the Israeli Navy destroyed [[Syria]]n warships without suffering any damage, using [[electronic countermeasures]] and ruses for defense. After defeating the [[Syrian Navy]] the Israeli missile boats also sank a number of Egyptian warships, again without suffering any damage in return, thus achieving total naval supremacy for the rest of the war.

Anti-ship missiles were used in the 1982 [[Falklands War]]. The British warship {{HMS|Sheffield|D80|6}}, a [[Type 42 destroyer]], was struck by a single air-launched [[Exocet]] and later sank as a result of the damage. The container ship {{ship||Atlantic Conveyor}} was hit by two Exocets and burnt out and subsequently sank while under tow. {{HMS|Glamorgan|D19|6}} was damaged when she was struck by an MM38, a ship-launched version of the Exocet, fired from a launcher taken from the [[Argentine Navy]] destroyer [[USS Hank|ARA ''Comodoro Seguí'']] and mounted on a trailer by Navy technicians,<ref>{{cite web |url=http://www.fuerzasnavales.com/itb.html |title=An interview with CL (R) Ing. Julio Pérez, chief designer of Exocet trailer-based launcher |language=es |archive-url=https://web.archive.org/web/20080302010742/http://www.fuerzasnavales.com/itb.html |archive-date=March 2, 2008 |url-status=dead }}</ref> but she had taken evasive action that limited the damage.

[[File:USS Stark.jpg|thumb|left|''Stark'' listing following two hits by [[Exocet]] missiles.]]
In 1987, a US Navy [[guided-missile frigate]], {{USS|Stark|FFG-31|6}}, was hit by an Exocet anti-ship missile fired by an Iraqi [[Mirage F-1]] fighter plane. ''Stark'' was damaged, but she was able to steam to a friendly port for temporary repairs.

In October 1987, ''Sungari'', an American-owned [[Tanker (ship)|tanker]] steaming under the Liberian flag, and {{MV|Sea Isle City||2}}, a Kuwaiti tanker steaming under the American flag, were hit by Iranian HY-2 missiles.

In 1988 AShMs were fired by both American and Iranian forces in [[Operation Praying Mantis]] in the [[Persian Gulf]]. During this naval battle, several Iranian warships were hit by American AShMs (and by the US Navy's [[Standard missile]]s—surface-to-air missiles which were doing double-duty in the anti-ship role). The US Navy hit the Iranian Navy frigate [[Iranian frigate Sahand (1969)|Sahand]] with three [[AGM-84 Harpoon|Harpoon]] missiles, four AGM-123 [[AGM-123 Skipper II|Skipper]] rocket-propelled bombs, a [[AGM-62 Walleye|Walleye]] TV-guided bomb, and several {{convert|1,000|lb|abbr=on|0}} "[[Mark 83 bomb|iron bombs]]". Despite the large number of munitions and successful hits, ''Sahand'' did not sink until fire reached her [[Magazine (artillery)#Naval magazines|ammunition magazine]], causing it to detonate, sinking the vessel.<ref>{{cite web|url=http://www.navybook.com/nohigherhonor/pic-prayingmantis.shtml|title=Photos of Sahand on fire|author=Bradley Peniston|publisher=Navybook.com|access-date=13 November 2014|archive-url=https://web.archive.org/web/20120614190554/http://www.navybook.com/nohigherhonor/pic-prayingmantis.shtml|archive-date=14 June 2012|url-status=dead}}</ref> In the same engagement, American warships fired three Standard missiles at an Iranian Navy [[corvette]]. This corvette had such a low profile above the water that a Harpoon missile that arrived several minutes later could not lock onto it with its targeting radars.

In 2006, Lebanese [[Hezbollah]] fighters fired an AShM at the Israeli corvette {{INS|Hanit}}, inflicting battle damage, but the warship managed to return to Israel in one piece and under its own power. A second missile in the same salvo struck and sank an Egyptian merchant ship.

[[File:Neptune R-360 missile, Kyiv 2021, 05.jpg|thumb|right|[[R-360 Neptune|R-360 Neptune anti-ship missile]]]]
On 13 April 2022, the Ukrainian government claimed to have hit the [[Russian cruiser Moskva|Russian cruiser ''Moskva'']] with two [[R-360 Neptune]] missiles, resulting in [[sinking of the Moskva|its sinking]]. The Russian government did not confirm the attack, but admitted that the ship sank after a fire.<ref>{{cite news |publisher=[[BBC News]] |url=https://www.bbc.com/news/world-europe-61114843 |access-date=15 April 2022 |date=15 April 2022 |title=Russian warship: Moskva sinks in Black Sea}}</ref>  If Ukrainian claims are true, ''Moskva'' might be the largest warship ever disabled or destroyed by a missile, according to Carl Schuster, a retired [[United States Navy|US Navy]] captain and former director of operations at the [[United States Indo-Pacific Command|US Pacific Command]]'s Joint Intelligence Center.<ref name="CNN 14apr22">{{cite news |last1=Lendon |first1=Brad |title=Russian navy evacuates badly damaged flagship in Black Sea. Ukraine claims it was hit by a missile |url=https://www.cnn.com/2022/04/14/europe/russia-navy-cruiser-moskva-fire-abandoned-intl-hnk-ml/index.html |publisher=CNN |date=14 April 2022 |access-date=14 April 2022 |archive-date=14 April 2022 |archive-url=https://web.archive.org/web/20220414164050/https://www.cnn.com/2022/04/14/europe/russia-navy-cruiser-moskva-fire-abandoned-intl-hnk-ml/index.html |url-status=live }}</ref>

==Threat posed==
{{More citations needed|section|date=February 2022}}
[[File:X-15c.gif|thumb|Attack against an aircraft carrier using a [[Kh-15|Kh-15S]]]]
[[File:Ракетный удар гвардейского ракетного крейсера «Варяг» и поражение судна-мишени класса «крейсер».ogv|thumb|Video of Russian [[P-1000 Vulkan]] missile destroying a target ship]]

Anti-ship missiles are a significant threat to surface ships, which have large [[radar]], radio, and thermal signatures that are difficult to suppress. Once acquired, a ship cannot outrun or out-turn a missile, the warhead of which can inflict significant damage. To counter the threat posed, the modern surface combatant has to either avoid being detected, destroy the missile launch platform before it fires its missiles, or decoy or destroy all of the incoming missiles.
 
Modern navies have spent much time and effort developing counters to the threat of anti-ship missiles since the Second World War. Anti-ship missiles have been the driving force behind many aspects of modern ship design, especially in navies that operate aircraft carriers.

The first layer of antimissile defense by a modern, fully equipped [[aircraft carrier]] [[task force]] is always the long-range [[air-to-air missile|missile-carrying]] fighter planes of the aircraft carrier itself. Several fighters are kept on [[combat air patrol]] (CAP) 24 hours a day, seven days a week when at sea, and many more are put aloft when the situation warrants, such as during wartime or when a threat to the task force is detected.
[[File:Mansup (13-09-2024).gif|thumb|right|Brazilian frigate [[HMS Battleaxe (F89)|''Rademaker'']] firing a [[MANSUP]] anti-ship missile in September 2024]]
These fighters patrol up to hundreds of miles away from the task force and they are equipped with airborne radar systems. When spotting an approaching aircraft on a threatening flight profile, it is the responsibility of the CAP to intercept it before any missile is launched. If this cannot be achieved in time, the missiles themselves can be targeted by the fighters's own weapons systems, usually their air-to-air missiles, but ''in extremis'', by their rapid-fire cannon.

However, some AShMs might "leak" past the task force's fighter defenses. In addition, many modern warships operate independently of carrier-based air protection and they must provide their own defenses against missiles and aircraft. Under these circumstances, the ships themselves must utilize multilayered defenses which have been built into them.

For example, some warships, such as the [[US Navy]]'s {{sclass|Ticonderoga|cruiser|0}} [[guided missile cruiser]]s, the {{sclass|Arleigh Burke|destroyer|0}} [[guided missile destroyer]]s, and the [[Royal Navy]]'s Type 45 guided missile destroyer, use a combination of radar systems, integrated computer fire-control systems, and agile [[surface-to-air missile]]s (SAM) to simultaneously track, engage, and destroy several incoming anti-ship missiles or hostile [[warplane]]s at a time.

The primary American defensive system, called the [[Aegis Combat System]], is also used by the navies of Japan, Spain, Norway, South Korea, and Australia. The Aegis system has been designed to defend against mass attacks by hostile anti-ship missiles or warplanes.

Any missiles that can elude the interception by medium-ranges SAM missiles can then be either deceived with electronic countermeasures or decoys; shot down by short-range missiles such as the Sea Sparrow or the Rolling Airframe Missile (RAM); engaged by the warship's main gun armament (if present); or, as a last resort, destroyed by a [[close-in weapon system]] (CIWS), such as the American [[Phalanx CIWS]], Russian [[Kashtan CIWS]], or the Dutch [[Goalkeeper CIWS]].

===Current threats and vulnerabilities===
[[File:Khalij Fars (“Persian Gulf”) ballistic missile.jpg|thumb|Iranian [[Persian Gulf (missile)|Persian Gulf]] [[anti-ship ballistic missile]]]]
To counter these defense systems, countries such as Russia are developing or deploying missiles that slowly cruise at a very low level (about five meters above sea level) to within a short range of their target and then, at the point when radar detection becomes inevitable, initiate a supersonic, high-agility sprint (potentially with anti-aircraft missile detection and evasion) to close the terminal distance. Missiles, such as the [[SS-N-27|SS-N-27 Sizzler]], that incorporate this sort of threat modality are regarded by US Navy analysts as potentially being able to penetrate the US Navy's defensive systems.<ref>{{cite web|url=https://www.bloomberg.com/apps/news?pid=20601070&sid=a5LkaU0wj714&refer=home|title=Navy Lacks Plan to Defend Against 'Sizzler' Missile|publisher=Bloomberg|access-date=13 November 2014|archive-url=https://web.archive.org/web/20071119102801/http://www.bloomberg.com/apps/news?pid=20601070&sid=a5LkaU0wj714&refer=home|archive-date=19 November 2007|url-status=live}}</ref>

Recent years have seen a growing amount of attention being paid to the possibility of [[ballistic missile]]s being re-purposed or designed for an anti-ship role. Speculation has focused on the development of such missiles for use by China's [[People's Liberation Army Navy]]. Such an [[anti-ship ballistic missile]] would approach its target extremely rapidly, making it very difficult to intercept.<ref>{{cite web|url=http://www.defensereview.com/chinese-anti-ship-ballistic-missile-asbm-kill-weapon-flummoxes-us-navy/|title=Chinese Anti-Ship Ballistic Missile (ASBM) 'Kill Weapon' Flummoxes U.S. Navy|author=David Crane|date=6 April 2009|publisher=DefenseReview.com (DR): An online tactical technology and military defense technology magazine with particular focus on the latest and greatest tactical firearms news (tactical gun news), tactical gear news and tactical shooting news.|access-date=13 November 2014|archive-url=https://web.archive.org/web/20141113185848/http://www.defensereview.com/chinese-anti-ship-ballistic-missile-asbm-kill-weapon-flummoxes-us-navy/|archive-date=13 November 2014|url-status=live}}</ref> In response to China's development of anti-ship missiles and other [[anti-access/area denial]] capabilities, the United States has developed the [[AirSea Battle]] doctrine.

==Countermeasures and defenses==
{{More citations needed|section|date=February 2022}}
{{See also|Countermeasure}}
[[File:USS John Paul Jones (DDG-53) launches RIM-174 June 2014.JPG|thumb|American [[RIM-174 Standard ERAM]] [[surface-to-air missile]] used to counter anti-ship missile threats. The missile can also used as an anti-ship missile for Secondary role.]]
[[File:9M317M surface-to-air-missiles.webm|thumb|Russian naval [[Buk missile system|9M317M]] surface-to-air-missile launching from [[vertical launching system]]]]
[[Image:AN-SLQ-32 Electronic Warfare Suite on USS CG-70 Lake Erie at Osaka (2014 April 13).jpg|thumb|[[AN/SLQ-32 electronic warfare suite|AN/SLQ-32 (V)3 electronic warfare suite]] aboard [[USS Lake Erie (CG-70)|USS ''Lake Erie'']].]]
Countermeasures against anti-ship missiles include 
* [[Surface-to-air missile]]s 
* [[Close-in weapon system]]s (CIWS), including the Soviet-or Russian-made [[AK-630]] or [[Kashtan CIWS|Kashtan]], Turkish [[Aselsan GOKDENIZ]], German [[Rheinmetall Oerlikon Millennium Gun|Millennium Gun]] or the [[Phalanx CIWS|Phalanx]] and [[Goalkeeper CIWS|Goalkeeper]]. These are automated gun systems mounted on the deck of a ship that use radar to track the approaching missile, and then attempt to shoot it down during its final approach to the target.
* [[Anti-aircraft gun]]s such as the [[5-54 Mark 45|Mk 45 {{convert|5|in|mm|adj=on|0}} naval gun]] or the [[AK-130]]
* [[Electronic warfare]] equipment (such as [[AN/SLQ-32 Electronic Warfare Suite]])
* [[Decoy]] systems (such as [[chaff (radar countermeasure)|chaff]], the US Navy's [[Mark 36 SRBOC]] system), and [[flare (countermeasure)|flare]]s, or more active decoys such as the [[Nulka]]

Ships that employ some [[stealth ship|stealth technology]] can reduce the risk of detection and make themselves a harder target for the missile through the use of passive countermeasures including:
* reduction of their [[radar cross section]] (RCS) and hence radar signature.
* limiting the ship's [[infrared signature|infrared]] and [[acoustic signature]].

===History of combat interceptions===

====Gulf War====
On February 25, 1991, during the first [[Gulf War]], the Phalanx-equipped {{USS|Jarrett|FFG-33|6}} was a few miles from {{USS|Missouri|BB-63|6}} and the destroyer {{HMS|Gloucester|D96|6}}. The ships were attacked by an Iraqi [[Silkworm missile]] (often referred to as the Seersucker), at which ''Missouri'' fired its [[Mark 36 SRBOC|SRBOC]] [[chaff (radar countermeasure)|chaff]]. The Phalanx system on ''Jarrett'', operating in the automatic target-acquisition mode, fixed upon ''Missouri''{{'}}s chaff, releasing a burst of rounds. From this burst, four rounds hit ''Missouri'' which was {{convert|2|to|3|mi|km|spell=in}} from ''Jarrett'' at the time. There were no injuries.<ref>{{cite web|url=http://www.gulflink.osd.mil/du_ii/du_ii_tabh.htm |title=Tab-H Friendly-fire Incidents |publisher=Gulflink.osd.mil |access-date=2010-04-13| archive-url=https://web.archive.org/web/20100408060501/http://www.gulflink.osd.mil/du_ii/du_ii_tabh.htm| archive-date=8 April 2010 | url-status=live}}</ref>  A [[Sea Dart missile]] was then launched from HMS ''Gloucester'', which destroyed the Iraqi missile, achieving the first successful engagement of a missile by a missile during combat at sea.

====2016 attacks off the coast of Yemen====
On 9 October 2016, {{USS|Mason|DDG-87|2}}, operating near the [[Bab-el-Mandeb]] strait, was targeted by two missiles fired from Houthi-controlled territory. Both missiles fell short and crashed into the water.<ref>{{cite web |url= https://www.cnbc.com/2016/10/09/us-navy-ship-uss-mason-targeted-in-failed-missile-attack-from-yemen.html |title=US Navy ship targeted in failed missile attack from Yemen |website=CNBC|date=9 October 2016 |access-date=9 October 2016}}</ref><ref>{{cite news|url=https://www.bloomberg.com/news/articles/2016-10-10/missiles-fired-from-yemen-target-u-s-navy-ship-in-failed-attack|title=Missiles Fired From Yemen Target U.S. Navy Ship in Failed Attack|publisher=Bloomberg|date=10 October 2016|access-date=10 October 2016}}</ref> The Houthi insurgency denied launching the attack on the warship.<ref>{{Cite news|url=http://www.cnn.com/2016/10/10/politics/yemen-us-navy-targeted/|title=Yemen: Missiles target U.S. warship, Pentagon says|last1=Browne|first1=Ryan|last2=Crawford|first2=Jamie|date=10 October 2016|publisher=[[CNN]]|access-date=10 October 2016}}</ref> The [[United States Naval Institute]] reported that ''Mason'' fired two [[RIM-66 Standard|SM-2 Standard]] missiles and one [[RIM-162 ESSM]] missile to intercept the two missiles, and deployed her [[Nulka]] missile decoy. One of two U.S. defense officials cited anonymously added that it was not clear whether the incoming missiles had been shot down or crashed into the water on their own.<ref>{{cite web|url=https://news.usni.org/2016/10/11/uss-mason-fired-3-missiles-to-defend-from-yemen-cruise-missiles-attack|title=USS Mason Fired 3 Missiles to Defend From Yemen Cruise Missiles Attack|last=LaGrone|first=Sam|website=USNI News|publisher=U.S. Naval Institute|date=11 October 2016|access-date=12 October 2016}}</ref> This marked the first recorded instance of ship-based [[anti-air]] missiles being fired from vertical launching cells in combat in response to an actual inbound missile threat.<ref>{{cite web |title=U.S. Navy Successfully Thwarts Attack With First Engagement of Missile Defense System |url=http://foxtrotalpha.jalopnik.com/u-s-navy-successfully-thwarts-attack-with-first-engage-1787678550 |publisher=Foxtrot Alpha |date=11 October 2016 |access-date=13 October 2016}}</ref>

On 12 October 2016 {{USS|Mason|DDG-87|2}} was again targeted by missiles fired from Yemeni territory, while it was operating in the Bab el-Mandeb strait.<ref name="2nd attack">{{Cite web|url=https://news.usni.org/2016/10/12/pentagon-respond-appropriate-manner-new-missile-attack-uss-mason-yemen|title=Pentagon Pledges to Respond in 'Appropriate Manner' After New Yemen Missile Attack on USS Mason|last=LaGrone|first=Sam|date=12 October 2016|website=USNI News|publisher=U.S. Naval Institute|access-date=12 October 2016}}</ref> ''Mason'' was not hit by the two missiles, which were fired from near the southern Yemen city of [[Al Hudaydah]].<ref name="2nd attack" /> While the Navy was not certain whether the first incoming missile was intercepted or instead just fell into the sea, officials said ''Mason'' successfully intercepted the second missile at a distance of about {{convert|8|mi}},<ref>{{cite web|url=http://www.stripes.com/news/aegis-defense-system-helped-stop-missile-attack-on-uss-mason-1.433974|title=Aegis defense system helped stop missile attack on USS Mason|last=Copp|first=Tara|publisher=Stars and Stripes|date=13 October 2016|access-date=15 October 2016}}</ref> marking the first time in history a warship destroyed an inbound anti-ship missile with a [[Surface-to-air missile|SAM]] in actual self-defense. On 13 October 2016, the U.S. attacked three [[radar]] sites in Houthi-held territory which had been involved in the earlier missile attacks, with [[Tomahawk (missile family)|cruise missiles]] launched from ''Nitze''.<ref>{{cite web|url=https://www.reuters.com/article/us-yemen-security-missiles-idUSKCN12C294|title=U.S. military strikes Yemen after missile attacks on U.S. Navy ship|last=Stewart|first=Phil|publisher=Reuters|date=12 October 2016|access-date=12 October 2016}}</ref> The Pentagon assessed that all three sites were destroyed.<ref>{{cite news|url=https://www.bbc.com/news/world-middle-east-37639565|title=Yemen conflict: U.S. strikes radar sites after missile attack on ship|work=BBC News|date=13 October 2016|access-date=13 October 2016}}</ref>

On 15 October 2016, {{USS|Mason|DDG-87|2}} was targeted in a third attack by Houthi rebels based in Yemen, by five anti-ship [[cruise missile]]s while operating in the [[Red Sea]] north of the Bab el-Mandeb strait. ''Mason'' fired a radar [[decoy]], an [[infrared]] decoy, and several [[SM-2 Standard]] missiles in response, either neutralizing or intercepting four of the five incoming missiles. The Navy reported the fifth incoming missile as neutralized by a radar decoy launched from ''Nitze'', after ''Mason'' alerted her to the threat.<ref>{{Cite web|url=https://www.navytimes.com/news/your-navy/2017/11/03/four-ship-crews-receive-combat-action-ribbon|title=Four ship crews receive Combat Action Ribbon |last=Ziezulewicz|first=Geoff|date=3 November 2017|website=Navy Times|access-date=10 November 2017}}</ref>

====2023 Houthi missile attacks====
On 26 December 2023, the [[USS Laboon|USS ''Laboon'']] shot down three ASBMs in the [[Red Sea]] fired by [[Houthi]] rebels with multiple SM-6s. This was its first intercept of a ballistic missile in combat.<ref>{{cite news|url=https://www.military.com/daily-news/2023/12/26/navy-defends-against-17-houthi-attacks-red-sea-shipping-over-just-10-hour-period.html|title="Massive One-Day Barrage of Houthi Attacks on Shipping Fended Off by Navy Destroyer, Fighter"|first1=Konstantin|last1=Toropin|date=December 26, 2023|work=[[Military.com]]}}</ref>

On 30 December 2023, Danish container ship Maersk Hangzhou issued a distress call after coming under fire from four small ships commanded by Iranian-backed Houthi rebels from Yemen. Attempts were also made to board Maersk Hangzhou by force, while a contracted security team defended the ship. {{USS|Gravely|DDG-107|2}} and aircraft carrier {{USS|Dwight D. Eisenhower|CVN-69|2}} responded to a distress call from the container ship. Verbal commands were radioed to the Houthi ships, while helicopters from Eisenhower were dispatched. After taking small arms fire, U.S. Navy helicopters returned fire, sinking three of the four Houthi ships. There was no damage to U.S. equipment or personnel. In the process of responding to the distress call, ''Gravely'' shot down two anti-ship ballistic missiles fired from Yemen.<ref>{{cite web |url= https://twitter.com/CENTCOM/status/1741381969936834951 |title= Iranian-backed Houthi small boats attack merchant vessel and U.S. Navy helicopters in Southern Red Sea |author= US Central Command |date= 31 December 2023 |website= X (formerly Twitter)}}</ref><ref>{{cite web | last=Tanyos | first=Faris | title=Missile fired from Houthi-controlled Yemen strikes merchant vessel in Red Sea, Pentagon says | website=CBS News | date=30 December 2023 | url=https://www.cbsnews.com/news/missile-from-houthi-controlled-yemen-strikes-merchant-vessel-red-sea-uss-gravely-shoots-down-anti-ship-missiles/ | access-date=31 December 2023}}</ref>

On Jan. 9, at approximately 9:15&nbsp;p.m. (Sanaa time), Iranian-backed Houthis launched a complex attack of Iranian designed one-way attack UAVs (OWA UAVs), anti-ship cruise missiles, and an anti-ship ballistic missile from Houthi-controlled areas of Yemen into the Southern Red Sea, towards international shipping lanes where dozens of merchant vessels were transiting. Eighteen OWA UAVs, two anti-ship cruise missiles, and one anti-ship ballistic missile were shot down by a combined effort of F/A-18s from {{USS|Dwight D. Eisenhower|CVN-69|2}}, {{USS|Gravely|DDG-107|2}}, ''USS Laboon (DDG 58)'', USS {{USS|Mason|DDG-87|2}}, and the United Kingdom’s {{HMS|Diamond}}. This is the 26th Houthi attack on commercial shipping lanes in the Red Sea since Nov. 19. There were no injuries or damage reported.<ref>{{Cite news |title=US CENTCOM Statement on 26th Houthi attack on commercial shipping lanes in the Red Sea |url=https://www.centcom.mil/MEDIA/STATEMENTS/Statements-View/Article/3639970/us-centcom-statement-on-26th-houthi-attack-on-commercial-shipping-lanes-in-the/}}{{Source-attribution}}</ref>

On 14 January 2024, an anti-ship missile was fired in the direction of ''Laboon'' from a Houthi-controlled portion of Yemen, according to [[CENTCOM]].<ref>{{cite news |last1=Gambrell |first1=Jon |title=Yemen Houthi rebels fire missile at US warship in Red Sea in first attack after American-led strikes|url=https://apnews.com/article/houthis-us-yemen-israel-palestinians-gaza-fa2aefc86ae002e73081e6ac1b772610 |access-date=14 January 2024 |website=AP News |publisher=Associated Press |date=14 January 2024}}</ref> Two weeks later, on 30 January 2024, the [[USS Carney|USS ''Carney'']] shot down an ASBM in the [[Gulf of Aden]] fired by Houthi rebels with an SM-6.<ref>{{cite news|url=https://www.twz.com/sea/navys-sm-6-missile-used-in-combat-report |title="Navy's SM-6 Missile Used In Combat: Report"|first1=Thomas| last1=Newdick|first2=Joseph|last2=Trevithick|date=February 1, 2024|work=The War Zone}}</ref>

On 30 January 2024, ''USS Gravely'' used its [[Phalanx CIWS]] to shoot down an incoming anti-ship cruise missile fired by the Houthis. U.S. officials said that the missile came within a mile of the destroyer.<ref>{{Cite web |last1=Liebermann |first1=Oren |last2=Bertrand |first2=Natasha |date=31 January 2024 |title=US warship had close call with Houthi missile in Red Sea |url=https://www.cnn.com/2024/01/31/politics/us-warship-close-call-houthi-missile/index.html |access-date=31 January 2024 |website=CNN}}</ref> No damage or injuries were reported.<ref>{{Cite web |last1=Sherman |first1=Ella |last2=Epstein |first2=Jake |date=31 January 2024 |title=A Houthi missile got so close to a US destroyer the warship turned to a last resort gun system to shoot it down: report |url=https://www.businessinsider.com/houthi-missile-close-us-warship-close-in-weapon-system-2024-1 |access-date=31 January 2024 |website=Business Insider}}</ref>

On February 6, 2024 at 4:30&nbsp;p.m., while patrolling in the Gulf of Aden, ''USS Laboon (DDG 58)'', operating near M/V Star Nasia, intercepted and shot down an anti-ship ballistic missile fired by the Iranian-backed Houthis.<ref>{{cite news |title=Iranian-Backed Houthi Terrorists conduct Multiple Anti-Ship Ballistic Missile Attacks in the Southern Red Sea and Gulf of Aden|url=https://www.centcom.mil/MEDIA/PRESS-RELEASES/Press-Release-View/Article/3668425/iranian-backed-houthi-terrorists-conduct-multiple-anti-ship-ballistic-missile-a/}}</ref> Later in the month, on 20 February 2024 at 12:30&nbsp;a.m., while operating in the [[Gulf of Aden]], ''Laboon'' detected and shot down one anti-ship cruise missile fired by the Houthis.<ref>{{cite news |title=Feb. 19 and early morning Feb. 20 Red Sea Update |url=https://www.centcom.mil/MEDIA/PRESS-RELEASES/Press-Release-View/Article/3681040/feb-19-and-early-morning-feb-20-red-sea-update/ |access-date=12 April 2024 |publisher=U.S. Central Command |date=20 February 2024}}</ref>

==Comparison==
{{more citations needed section|date=February 2025}}
{{See also|List of anti-ship missiles}}
{| class="wikitable sortable" style="text-align: center"
|-
!Name
!Year
! data-sort-type="number" | Weight
! data-sort-type="number" | Warhead
! data-sort-type="number" | Range
! data-sort-type="number" | Speed
!Propulsion
!Launch platform
!Guidance
!Force
!Comments
|-
| [[Zircon (missile)|Zircon]]<ref>{{cite web|url=http://rg.ru/2015/10/26/reg-szfo/raketa-anons.html|title=Крейсер "Адмирал Нахимов" получит гиперзвуковые ракеты|date=26 October 2015|access-date=31 January 2016|language=ru|archive-url=https://web.archive.org/web/20160307230620/http://rg.ru/2015/10/26/reg-szfo/raketa-anons.html|archive-date=7 March 2016|url-status=live}}</ref>||Expected for (2018-<ref>{{cite news|url=https://www.independent.co.uk/news/uk/home-news/royal-navy-new-queen-elizabeth-class-aircraft-carriers-not-stop-russia-zircon-missiles-hypersonic-a7651781.html|title=Russia has created an 'unstoppable' 4,600mph missile|date=27 March 2017|access-date=19 September 2017|archive-url=https://web.archive.org/web/20170929092156/http://www.independent.co.uk/news/uk/home-news/royal-navy-new-queen-elizabeth-class-aircraft-carriers-not-stop-russia-zircon-missiles-hypersonic-a7651781.html|archive-date=29 September 2017|url-status=live}}</ref> 2020)<ref name=zirkon-tass>{{cite web|url=http://tass.ru/en/defense/870751|access-date=2016-05-13|title=Russia's hypersonic Zircon missile to go into serial production in 2018|archive-url=https://web.archive.org/web/20160523204745/http://tass.ru/en/defense/870751|archive-date=2016-05-23|url-status=live}}</ref>||Size 4 pcs instead of 1 P-700 for 1 launcher||{{cvt|300|-|400|kg|lb|disp=br()}}<br>[[conventional weapons|conventional]] or [[nuclear weapon|nuclear]]||{{cvt|400|km|nmi |disp=br()}} (export)<br/> >{{cvt|1000|km|nmi |disp=br()}} (domestic)<ref>{{cite web|url=http://www.vesti.ru/doc.html?id=2732278|title=Для гиперзвуковых крылатых ракет в России создано принципиально новое топливо|website=vesti.ru|access-date=2017-05-25|language=ru|archive-url=https://web.archive.org/web/20170529064513/http://www.vesti.ru/doc.html?id=2732278|archive-date=2017-05-29|url-status=live}}</ref>||Minimum 4700&nbsp;km/h (Mach 5 to 6) <ref name=zirkon-tass/> potentially up to Mach 8 <ref>{{cite web|url=http://www.vesti.ru/doc.html?id=2877959|title=На испытаниях российская ракета "Циркон" достигла восьми скоростей звука|website=vesti.ru|access-date=2017-04-15|language=ru|archive-url=https://web.archive.org/web/20170415204539/http://www.vesti.ru/doc.html?id=2877959|archive-date=2017-04-15|url-status=live}}</ref>||Liquid fuel scramjet||Surface, submarine||{{dunno}}||Russia||
|-
| [[3M-54 Kalibr|3M-54E Klub]] (SS-N-27 "Sizzler")||2006||{{cvt|2300|kg|lb|disp=br()}}||{{cvt|200|kg|lb|disp=br()}}||{{cvt|220|km|nmi |disp=br()}}||0.8 M, 2.5/2.9M||Turbojet||Surface, sub, shipping container||Inertial, active radar||Russia||
|-
| [[3M-54 Kalibr|3M-54E1 Klub]] (SS-N-27 "Sizzler")||2006||{{cvt|1780|kg|lb|disp=br()}}||{{cvt|400|kg|lb|disp=br()}}||{{cvt|300|km|nmi |disp=br()}}||0.8 M, 2.5/2.9M||Turbojet||Surface, sub, shipping container||Inertial, active radar||Russia||
|-
| [[3M-54 Kalibr]] (SS-N-27 "Sizzler")||1993||{{cvt|1300|kg|lb|disp=br()}}||{{cvt|200|kg|lb|disp=br()}}||{{cvt|660|km|nmi |disp=br()}}||0.8 M, 2.5/2.9M||Turbojet||Surface, sub, shipping container||Inertial, active radar||Russia||Used in combat
|-
| [[P-500 Bazalt|P-1000 Vulkan]]||1987||{{cvt|6300|kg|lb|disp=br()}}||{{cvt|500|kg|lb|disp=br()}}||700 and 1000 (appx.) &nbsp;km (or 800&nbsp;km<ref>{{cite web |url=http://tvzvezda.ru/news/forces/content/201601050731-ddon.htm |title=Никому в мире и не снилось: почему ракете "Вулкан" до сих пор нет равных на планете |publisher=Tvzvezda.ru |date=2018-01-01 |access-date=2018-11-21 |language=ru |archive-url=https://web.archive.org/web/20180916235505/https://tvzvezda.ru/news/forces/content/201601050731-ddon.htm |archive-date=2018-09-16 |url-status=live }}</ref>)||{{cvt|3825|km/h|kn}}||Solid-fuel ramjet||Surface||Inertial, active radar homing/anti radar, mid course correction||USSR/Russia||
|-
| [[P-800 Oniks]] (SS-N-26)||2002||{{cvt|3000|kg|lb|disp=br()}}||{{cvt|250|kg|lb|disp=br()}}||{{cvt|800|km|nmi |disp=br()}} (Oniks-M) <br /> {{cvt|600|km|nmi}} (Domestic version for Russia)||{{cvt|3600|km/h|kn}}||Ramjet||Surface, air||Active-passive, radar||Russia||
|-
| [[P-700 Granit]]||1983||{{cvt|7000|kg|lb|disp=br()}}||{{cvt|750|kg|lb|disp=br()}}||{{cvt|625|km|nmi |disp=br()}}||{{cvt|2550|km/h|kn}}||Solid-fuel ramjet||Surface||Inertial, active radar homing/anti radar, mid course correction||USSR/Russia||
|-
| [[P-500 Bazalt]] (SS-N-12 SANDBOX)||1975||{{cvt|4500|kg|lb|disp=br()}}||1000&nbsp;kg / 350 kt nuclear||{{cvt|550|km|nmi |disp=br()}}||{{cvt|3060|km/h|kn}}||Liquid fuel rocket||Surface, submarine||Semi-active, terminal active radar||USSR||
|-
| [[P-270 Moskit]] (SS-N-22 SUNBURN)||1984||{{cvt|4500|kg|lb|disp=br()}}||{{cvt|320|kg|lb|disp=br()}}||{{cvt|120|km|nmi |disp=br()}}||{{cvt|3600|km/h|kn}}||Ramjet||Surface, air||Active radar, infrarred||USSR||
|-
| [[P-120 Malakhit]] (SS-N-9 SIREN)||1972||{{cvt|2953|kg|lb|disp=br()}}||{{cvt|500|kg|lb|disp=br()}}||{{cvt|110|km|nmi |disp=br()}}||Mach 0.9||Turbojet, solid fuel||Surface||Inertial, mid course correction, active radar||USSR||Used in combat
|-
| [[P-70 Ametist]] (SS-N-7 STARBRIGHT)||1967||{{cvt|3500|kg|lb|disp=br()}}||{{cvt|500|kg|lb|disp=br()}}||{{cvt|65|km|nmi |disp=br()}}||{{cvt|1050|km/h|kn}}||Solid rocket||Sub||Inertial, terminal homing||USSR||
|-
| [[P-15 Termit]] (SS-N-2 STYX)||1960||{{cvt|3100|kg|lb|disp=br()}}||{{cvt|454|kg|lb|disp=br()}}||{{cvt|80|km|nmi |disp=br()}}||{{cvt|1100|km/h|kn}}||Liquid fuel rocket||Surface||Active radar, infrarred||USSR||Used in combat
|-
| [[P-5 Pyatyorka]] (SS-N-3 "Shaddock")||1959||{{cvt|5000|kg|lb|disp=br()}}||{{cvt|1000|kg|lb|disp=br()}}||{{cvt|750|km|nmi |disp=br()}}||{{cvt|1000|km/h|kn}}||Turbojet||Surface||Inertial, mid course correction, active radar||USSR||
|-
| [[Kh-15 (missile)|Kh-15]] (AS-16 Kickback)||1980||{{cvt|1200|kg|lb|disp=br()}}||150&nbsp;kg conventional/nuclear||{{cvt|300|km|nmi |disp=br()}}||{{cvt|6125|km/h|kn}}||Solid-fuel rocket||Air||Inertial/Active radar||USSR/Russia||
|-
| [[Kh-35]] (AS-20 KAYAK)||2003||{{cvt|520|kg|lb|disp=br()}}||{{cvt|145|kg|lb|disp=br()}}||{{cvt|130|km|nmi |disp=br()}}||{{cvt|970|km/h|kn}}||Turbofan||Surface, air||Inertial, active radar||USSR/Russia/North Korea||
|-
| [[Kh-22]] (AS-4 Kitchen)||1968||{{cvt|5820|kg|lb|disp=br()}}||1000&nbsp;kg conventional/nuclear||{{cvt|400|km|nmi |disp=br()}}||{{cvt|4000|km/h|kn}}||Liquid-fuel rocket||Air||Inertial||USSR/Russia||
|-
| [[KSShch]] (SS-N-1 "Scrubber")||1958||{{cvt|2300|kg|lb|disp=br()}}||Nuclear||{{cvt|40|km|nmi |disp=br()}}||{{cvt|1150|km/h|kn}}||Liquid-fuel rocket||Surface||Inertial||USSR||
|-
| [[RIM-174 Standard ERAM|SM-6]]||2013||{{cvt|1500|kg|lb|disp=br()}}||{{cvt|64|kg|lb|disp=br()}}||{{cvt|370|km|nmi|disp=br()}}||{{cvt|4287.7|km/h|kn}}||two stage/solid rocket booster||[[surface combatants|surface ships]], [[transporter erector launcher]]||[[Inertial guidance]], [[active radar homing]], [[semi active radar homing]]||United States||(The anti-ship version will enter service in 2023.)
|-
| [[AGM-158C LRASM]]||2013<ref>{{cite web|url=http://www.deagel.com/Anti-Ship-Missiles/LRASM_a002407001.aspx|access-date=2010-11-14|title=LRASM / Long Range Anti-Ship Missile|archive-url=https://web.archive.org/web/20101206042717/http://www.deagel.com/Anti-Ship-Missiles/LRASM_a002407001.aspx|archive-date=2010-12-06|url-status=live}}</ref> / 2018<ref>{{cite web|url=http://aviationweek.com/defense/arming-new-platforms-will-push-value-missiles-market|access-date=2016-05-13|title=Arming New Platforms Will Push Up Value Of Missiles Market|archive-url=https://web.archive.org/web/20160410051620/http://aviationweek.com/defense/arming-new-platforms-will-push-value-missiles-market|archive-date=2016-04-10|url-status=live}}</ref>||~900&nbsp;kg||450&nbsp;kg||{{cvt|370|-|560|km|nmi|disp=br()}}<ref>{{cite web|url=https://www.flightglobal.com/about-us/blogs-announcement/|title=About the FlightGlobal Group - Blogs Announcement - flightglobal.com|website=Flightglobal.com|access-date=2018-04-13|archive-url=https://web.archive.org/web/20180415133952/https://www.flightglobal.com/about-us/blogs-announcement/|archive-date=2018-04-15|url-status=live}}</ref><ref>{{cite web |url=http://www.ainonline.com/aviation-news/defense/2015-12-15/us-navys-new-anti-ship-missile-makes-progress |title=US Navy's New Anti-Ship Missile Makes Progress |archive-url=https://web.archive.org/web/20180414010702/https://www.ainonline.com/aviation-news/defense/2015-12-15/us-navys-new-anti-ship-missile-makes-progress |archive-date=2018-04-14 |url-status=dead |website=Ainonline.com |date=15 December 2015}}</ref><ref>{{cite web |url=http://breakingdefense.com/2016/11/a-bridgehead-too-far-csbas-aggressive-risky-strategy-for-marines/ |title=A Bridgehead Too Far? CSBA's Aggressive, risky Strategy For Marines |archive-url=https://web.archive.org/web/20180414011026/https://breakingdefense.com/2016/11/a-bridgehead-too-far-csbas-aggressive-risky-strategy-for-marines/ |archive-date=2018-04-14 |url-status=dead |website=Breakingdefense.com |date=15 November 2016}}</ref>||High subsonic||Turbojet||Air, ship||Passive radar and infrared homing||United States||
|-
| [[AGM-123 Skipper II]]||1985||{{cvt|582|kg|lb|disp=br()}}||{{cvt|450|kg|lb|disp=br()}}||{{cvt|25|km|nmi |disp=br()}}||{{cvt|1100|km/h|kn}}||Solid-fueled||Air||Laser-guided||United States||Used in combat
|-
| [[Tomahawk (missile family)|BGM-109 Tomahawk]]||1983||{{cvt|1200|kg|lb|disp=br()}}||{{cvt|450|kg|lb|disp=br()}}||{{cvt|1666|km|nmi |disp=br()}} (Block V) <ref>{{Cite web|url=https://www.defensenews.com/naval/2021/03/17/us-navy-set-to-take-delivery-of-the-latest-version-of-its-tomahawk-missile/|title=US Navy set to receive latest version of the Tomahawk missile|date=17 March 2021}}</ref>||{{cvt|880|km/h|kn}}||Turbofan||Air, surface, submarine||[[GPS]], [[TERCOM]], [[DSMAC]]||United States||(Previous anti-ship version withdrawn from service in 1994, new anti-ship version will enter service in 2023.)
|-
| [[Harpoon (missile)|Harpoon]]||1977||{{cvt|691|kg|lb|disp=br()}}||{{cvt|221|kg|lb|disp=br()}}||{{cvt|280|km|nmi |disp=br()}}||{{cvt|864|km/h|kn}}||Turbojet engine||Air, surface, submarine||Radar (B3: midcourse update)||United States||Used in combat
|-
| [[AGM-65 Maverick|AGM-65F Maverick]]||1972||{{cvt|300|kg|lb|disp=br()}}||{{cvt|140|kg|lb|disp=br()}}||{{cvt|30|km|nmi |disp=br()}}||{{cvt|1,150|km/h|kn}}||Solid propellant||Air||Laser, infrarred||United States||Used in combat
|-
| [[Bat (guided bomb)|Bat]]||1944||{{cvt|1000|kg|lb|disp=br()}}||{{cvt|727|kg|lb|disp=br()}}||{{cvt|37|km|nmi |disp=br()}}||{{cvt|260|–|390|km/h|kn}}||None||Air||Active radar||United States||Used in combat
|-
| [[Missile Moyenne Portée|MMP]]||2017||{{cvt|15|kg|lb|disp=br()}}||{{dunno}}||{{cvt|5|km|nmi|disp=br()}}||{{dunno}}||Solid propellant||Surface||Infrared||France||
|-
| [[Sea Venom (missile)|ANL/Sea Venom]]||2017||120&nbsp;kg
(260&nbsp;lb)
|{{cvt|30|kg|lb|disp=br()}}||{{cvt|20|km|nmi|disp=br()}}||{{cvt|1040.4|km/h|kn}})||Two-stage solid-propellant rocket motor||Air (helicopter), Surface||Infrared||France/United Kingdom||
|-
| [[AS.34 Kormoran]]||1991||{{cvt|630|kg|lb|disp=br()}}||{{cvt|220|kg|lb|disp=br()}}||{{cvt|35|km|nmi |disp=br()}}||{{cvt|1101|km/h|kn}}||Rocket||Air||Inertial, active radar||France/Germany||
|-
| [[AS 15 TT|AS.15TT/MM.15]]||1985||{{cvt|96|kg|lb|disp=br()}}||{{cvt|30|kg|lb|disp=br()}}||{{cvt|15|km|nmi |disp=br()}}||{{cvt|1008|km/h|kn}}||Solid propellant||Air||Inertial||France||
|-
| [[ARMAT]]||1984||{{cvt|550|kg|lb|disp=br()}}||{{cvt|160|kg|lb|disp=br()}}||{{cvt|120|km|nmi |disp=br()}}||{{cvt|1100|km/h|kn}}||Solid propellant||Air||Passive radar||France||
|-
| [[Otomat|Otomat/Milas]]||1977||{{cvt|770|kg|lb|disp=br()}}||{{cvt|210|kg|lb|disp=br()}}||{{cvt|360|km|nmi |disp=br()}} (min.)||{{cvt|1116|km/h|kn}}||Turbojet||Surface, air||Inertial, GPS, active radar||France/Italy||
|-
| [[Exocet]]||1975||{{cvt|670|kg|lb|disp=br()}}||{{cvt|165|kg|lb|disp=br()}}||{{cvt|180|km|nmi |disp=br()}}||{{cvt|1134|km/h|kn}}||Solid propellant (Block 1, block 2), turbojet (Block 3)||Air, surface, submarine||Inertial, active radar||France||Used in combat
|-
| [[Martel (missile)|AS.37/AJ.168 Martel]]||1970||{{cvt|550|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|60|km|nmi |disp=br()}}||{{cvt|1070|km/h|kn}}||Solid propellant||Air||Passive radar, TV||France/United Kingdom||Used in combat
|-
| [[Malafon]]||1966||{{cvt|1330|kg|lb|disp=br()}}||{{dunno}}||{{cvt|13|km|nmi|disp=br()}}||{{cvt|808|km/h|kn}}||Solid propellant||Ship, surface||MCLOS (radio link)||France||
|-
| [[SS.12/AS.12]]||1960||{{cvt|76|kg|lb|disp=br()}}||{{cvt|28|kg|lb|disp=br()}}||{{cvt|7|km|nmi |disp=br()}}||{{cvt|370|km/h|kn}}||Solid-fueled||Air, surface||Wire-guided [[MCLOS]]||France||Used in combat
|-
| Malaface||1954||{{cvt|1430|kg|lb|disp=br()}}||{{cvt|700|kg|lb|disp=br()}}||{{cvt|40|km|nmi|disp=br()}}||{{cvt|808|km/h|kn}}||Solid propellant||Surface||MCLOS (radio link)||France||
|-
| BHT-38||1940||{{cvt|160|kg|lb|disp=br()}}||{{dunno}}||{{dunno}}||{{dunno}}||None ([[glide bomb]])||Air||MCLOS (radio link)||France||
|-
| [[Sea Eagle (missile)|Sea Eagle]]||1985||{{cvt|580|kg|lb|disp=br()}}||{{cvt|230|kg|lb|disp=br()}}||{{cvt|110|km|nmi |disp=br()}} (min.)||{{cvt|1000|km/h|kn}}||Turbojet||Air||Inertial, active radar||United Kingdom||
|-
| [[Sea Skua]]||1983||{{cvt|145|kg|lb|disp=br()}}||{{cvt|28|kg|lb|disp=br()}}||{{cvt|25|km|nmi |disp=br()}}||{{cvt|950|km/h|kn}}||Solid fuel||Air||Semi-active radar||United Kingdom||Used in combat
|-
| [[RBS-15]]||1985||{{cvt|800|kg|lb|disp=br()}}||{{cvt|200|kg|lb|disp=br()}}||{{cvt|200|km|nmi |disp=br()}}||{{cvt|1101|km/h|kn}}||Turbojet||Air, surface||Inertial, GPS, radar||Sweden||
|-
| [[Saab Rb 08|RB 08]]||1966||{{dunno}}||{{dunno}}||{{cvt|70|km|nmi |disp=br()}}||Subsonic||Turbojet||Surface||Radio link active radar||Sweden/France||
|-
| [[RB 04]]||1962||{{cvt|600|kg|lb|disp=br()}}||{{cvt|300|kg|lb|disp=br()}}||{{cvt|32|km|nmi |disp=br()}}||Subsonic||Solid propellant||Air||Active radar||Sweden||
|-
| [[Naval Strike Missile]]||2009||{{cvt|410|kg|lb|disp=br()}}||{{cvt|125|kg|lb|disp=br()}}||{{cvt|250|km|nmi |disp=br()}}||High subsonic||Turbojet and solid fuel booster||Air, surface||Inertial, GPS, terrain-reference, imaging IR, target database||Norway||
|-
| [[Penguin (missile)|Penguin]]||1972||{{cvt|385|kg|lb|disp=br()}}||{{cvt|130|kg|lb|disp=br()}}||{{cvt|55|km|nmi |disp=br()}} (min.) ||{{cvt|1468|km/h|kn}}||Solid propellant||Air, surface, submarine||Inertial, laser, infrarred||Norway||
|-
| [[Fritz X]]||1943||{{cvt|1362|kg|lb|disp=br()}}||{{cvt|320|kg|lb|disp=br()}}||{{cvt|5|km|nmi |disp=br()}}||{{cvt|1235|km/h|kn}}||None ([[glide bomb]])||Air||Manual (radio link)||Germany||Used in combat
|-
| [[Henschel Hs 293]]||1943||{{cvt|1045|kg|lb|disp=br()}}||{{cvt|295|kg|lb|disp=br()}}||{{cvt|5|km|nmi|disp=br()}}||{{cvt|828|km/h|kn}}||Liquid-propellant, then gliding||Air||MCLOS (radio link)||Germany||Used in combat
|-
| [[Blohm & Voss BV 246]]||1943||{{cvt|730|kg|lb|disp=br()}}||{{cvt|435|kg|lb|disp=br()}}||{{cvt|210|km|nmi |disp=br()}}||{{cvt|450|km/h|kn}}|||None (glide bomb)||Air||Manual (radio link)||Germany|| 
|-
| [[Neptune (cruise missile)|RK-360MC Neptune]]||2021||{{cvt|870|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|300|km|nmi |disp=br()}}||Subsonic||Turbofan||Ground based TEL||{{dunno}}||Ukraine||Used in combat<ref>{{Cite web|url=https://www.npr.org/2022/04/15/1093026912/russian-moskva-warship-sunk-ukraine|title = A Russian warship in the Black Sea was sunk by Ukrainian missiles, U.S. Official says|website = NPR|date = 15 April 2022|last1 = Treisman|first1 = Rachel}}</ref>
|-
| [[BrahMos-II]]||2030s||{{dunno}}||{{dunno}}||{{cvt|1000|km|nmi |disp=br()}} <br /> {{cvt|400|km|nmi |disp=br()}}(export version)||{{cvt|6125|–|8575|km/h|kn}}||Scramjet||Ship, surface, air, submarine||{{dunno}}||India/Russia||
|-
| [[BrahMos]]||2006||{{cvt|2500|kg|lb|disp=br()}} (air), {{cvt|3000|kg|lb|disp=br()}} (ground)||{{cvt|300|kg|lb|disp=br()}}||{{cvt|800|km|nmi |disp=br()}} or {{cvt|290|km|nmi |disp=br()}}(Export version) ||{{cvt|3675|km/h|kn}}||Ramjet||Ship, surface, air, submarine||[[Inertial navigation system|INS]], [[SatNav]], [[Active radar homing|ARH]]||India/Russia||
|-
| [[Çakır (missile)]]||2023||{{cvt|275|-|330|kg|lb|disp=br()}}||{{cvt|70|kg|lb|disp=br()}}||{{cvt|150|-|200|km|nmi |disp=br()}}||{{cvt|919|-|1040|km/h|kn}}||Turbojet||Ship, surface, air||Inertial, IIR, RF, Hybrid (IIR+RF)||Turkey||
|-
|[[Atmaca]]||2017||{{cvt|750|kg|lb|disp=br()}}||{{cvt|220|kg|lb|disp=br()}}||{{cvt|250|km|nmi|disp=br()}}<br />+{{cvt|280|km|nmi|disp=br()}} (KARA Atmaca)<ref>{{Cite web|url=https://www.roketsan.com.tr/en/products/kara-atmaca-surface-surface-cruise-missile|title = Roketsan - KARA ATMACA Surface-To-Surface Cruise Missile}}</ref><ref>{{Cite web|url=https://www.roketsan.com.tr/en/product/atmaca-anti-ship-missile/|title=ATMACA ANTI-SHIP MISSILE – Roketsan|access-date=2021-06-19|archive-date=2021-02-05|archive-url=https://web.archive.org/web/20210205025326/https://www.roketsan.com.tr/en/product/atmaca-anti-ship-missile/|url-status=dead}}</ref>||{{cvt|1042|km/h|kn}}||Turbojet||Ship, surface, air||Inertial/GPS+RA+DL+IIR||Turkey||
|-
| [[SOM (missile)]]||2006||{{cvt|600|kg|lb|disp=br()}}||{{cvt|230|kg|lb|disp=br()}}||SOM-A:{{cvt|250|km}} SOM-J:{{cvt|185|km}}||{{cvt|1153|km/h|kn}}||Turbojet||Air||Inertial / GPS, terrain referenced navigation, automatic target recognition, imaging infrared||Turkey||
|-
| [[XASM-3]]||2016||{{cvt|940|kg|lb|disp=br()}}||{{dunno}}||{{cvt|150|km|nmi |disp=br()}}(original version)<br />{{cvt|400|km|nmi |disp=br()}}(extended range)||{{cvt|3707|km/h|kn}}||Ramjet||Air||Inertial / GPS, mid-course correction, active/passive radar||Japan||
|-
| [[Type 12 surface-to-ship missile|Type 12]]||2015||{{cvt|700|kg|lb|disp=br()}}||?||{{cvt|200|km|nmi|disp=br()}}(original version)<br />{{cvt|400|km|nmi|disp=br()}}(ship/air-launched and improved version)<br />{{cvt|900|km|nmi|disp=br()}}(upgrade in development)<br />{{cvt|1500|km|nmi|disp=br()}}(future version)||?||Turbojet||Ship, TEL, Air||Inertial, GPS, AESA||Japan||
|-
| [[Type 93 air-to-ship missile|Type 93]]||1993||{{cvt|530|kg|lb|disp=br()}}||{{dunno}}||{{cvt|170|km|nmi |disp=br()}}||{{dunno}}||Turbojet||Air||Inertial and IR Image||Japan||
|-
| [[Type 91 air-to-ship missile|Type 91]]||1991||{{cvt|510|kg|lb|disp=br()}}||{{cvt|260|kg|lb|disp=br()}}||{{cvt|150|km|nmi |disp=br()}}||{{dunno}}||Turbojet||Air||Inertial, mid course correction, active radar||Japan||
|-
| [[Type 80 air-to-ship missile|Type 80]]||1982||{{cvt|600|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|50|km|nmi|disp=br()}}||{{dunno}}||Turbojet||Air||Infarred||Japan||
|-
| [[Ohka]]||1943||{{cvt|2140|kg|lb|disp=br()}}||{{cvt|1200|kg|lb|disp=br()}}||{{cvt|36|km|nmi |disp=br()}}||{{cvt|630|km/h|kn}}||Solid-propellant||Air||Manned ([[suicide attack]])||Japan||Used in combat
|-
| [[Hsiung Feng III]]||2007||{{cvt|1470|kg|lb|disp=br()}}||{{dunno}}||{{cvt|400|km|nmi |disp=br()}}||{{cvt|3,062|km|nmi}}||Ramjet||Ship, surface, air||Inertial / Active radar||Taiwan||
|-
| [[Hsiung Feng IIE]]||2011||{{cvt|1600|kg|lb|disp=br()}}||{{dunno}}||{{cvt|600-2,000|km|nmi |disp=br()}}||{{cvt|1,041|km|nmi}}||Solid-fuel rocket||Ship, surface, air||Inertial/GPS/TERCOM||Taiwan||
|-
| [[Hsiung Feng II]]||1990||{{cvt|685|kg|lb|disp=br()}}||{{cvt|180|kg|lb|disp=br()}}||{{cvt|20-250|km|nmi |disp=br()}}||{{cvt|1,041|km|nmi}}||Solid-fuel rocket||Ship, surface, air||Inertial midflight / Dual active radar plus infrared homing||Taiwan||
|-
| [[Hsiung Feng I]]||1978-2012||{{cvt|537.5|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|40|km|nmi |disp=br()}}||{{cvt|833|km|nmi}}||Solid-fuel rocket||Ship, surface, air||Inertial / Radar beam riding plus terminal semi-active homing||Taiwan||
|-
| [[Gabriel missile|Gabriel]]||1962||{{cvt|522|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|60|km|nmi |disp=br()}}||{{cvt|840|km/h|kn}}||Solid-fuel rocket||Air, surface||Active radar||Israel||Used in combat
|-
| [[Hae Sung|Hae Sung-I]] (SSM-700K)||2005||{{cvt|718|kg|lb|disp=br()}}||{{cvt|300|kg|lb|disp=br()}}||{{cvt|150|km|nmi |disp=br()}}||{{cvt|1013|km/h|kn}}||Turbojet||Ship, surface||Inertial, active radar||South Korea||
|-
|[[Noor (missile)|Noor]]
|2005
|{{cvt|750|kg|lb|disp=br()}}
|{{cvt|165|kg|lb|disp=br()}}
|{{cvt|30-220|km|nmi|disp=br()}}
|{{cvt|1110-1728|km/h|kn}}
|Turbojet engine 
|Air, Surface, Ship
|Inertial, Active radar homing
|Iran
|Used in combat
|-
|[[Zafar (anti-ship missile)|Zafar]]
|2012
|{{cvt|120|kg|lb|disp=br()}}
|{{cvt|30|kg|lb|disp=br()}}
|{{cvt|25|km|nmi|disp=br()}}
|0.8 M
|Turbojet 
|Surface, Ship
|Active radar
|Iran
|
|-
| P15 & Silkworm KN1||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||{{dunno}}||Turbofan||Surface, coastal||Inertial, active radar||North Korea/USSR/Russia||
|-
| [[Mansup|MANSUP]]||2009||{{cvt|380|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|74-100|km|nmi |disp=br()}}||{{cvt|870|km/h|kn}}||Solid-fuel rocket||Ship, surface||Inertial, active radar||Brazil||
|-
|-
| [[Mansup|MANSUP-ER]]<ref>{{cite web| url = https://www.naval.com.br/blog/2023/11/13/grupo-edge-apresenta-o-missil-antinavio-mansup-er-no-dubai-air-show/ | title = Grupo EDGE apresenta o míssil antinavio MANSUP-ER no Dubai Air Show | website = Poder Naval | date = 14 November 2023 | language = pt }}</ref>||2023||{{cvt|380|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|200|km|nmi |disp=br()}}||{{cvt|950|km/h|kn}}||Turbofan||Ship, surface||Inertial, active radar||Brazil||
|-
|| [[NASM-SR]]<ref name=":0">{{Cite web |last=Paul George |first=Justin |date=18 May 2022 |title=Smaller, slower than BrahMos, but deadly: Why desi anti-ship missile matters |url=https://www.theweek.in/news/india/2022/05/18/smaller-slower-than-brahmos-but-deadly-why-desi-anti-ship-missile-matters.html |url-status=live |archive-url=https://web.archive.org/web/20220519072519/https://www.theweek.in/news/india/2022/05/18/smaller-slower-than-brahmos-but-deadly-why-desi-anti-ship-missile-matters.html |archive-date=19 May 2022 |access-date=2022-05-18 |website=The Week |language=en}}</ref>||Expected for 2024||{{cvt|375|kg|lb|disp=br()}}||{{cvt|100|kg|lb|disp=br()}}||{{cvt|55|km|nmi|disp=br()}}||{{cvt|980|km/h|kn}}||Solid-fuel rocket||Air||[[Inertial navigation system|INS]], [[SatNav]], [[Infrared homing#Imaging systems|IIR]]||India||
|-
|| [[NASM-MR]]<ref name=":0"/>||Expected for 2025||{{cvt|750|kg|lb|disp=br()}}||{{cvt|150|kg|lb|disp=br()}}||{{cvt|150-250|km|nmi|disp=br()}}||{{cvt|980|km/h|kn}}||Solid-fuel rocket||Air||INS, SatNav, IIR||India||
|-
|| [[Nirbhay|LR-AShCM]]||2023||{{cvt|1450|kg|lb|disp=br()}}||{{cvt|200-300|kg|lb|disp=br()}}||{{cvt|1000|km|nmi|disp=br()}}||{{cvt|1110|km/h|kn}}||Turbofan||Ship, Surface, Air, Submarine||INS, SatNav, Hybrid ([[Active radar homing|ARH]], [[Electro-optical guidance|EO]] + IIR)||India||
|-
|[[Long Range – Anti Ship Missile (India)|LRAShM]]
|{{dunno}}
|{{dunno}}
|{{dunno}}
|>{{cvt|1500|km|nmi|disp=br()}}
|>{{cvt|8|Mach|kn}}
|Solid-fuel rocket
|Ship, Surface
|{{dunno}}
|India
|
|}

==References==
{{Reflist}}

==External links==
{{commons category|Anti-ship missiles}}
* [http://www.ausairpower.net/Warship-Hits.html Warship Vulnerability (tabulated shipping losses)]
* [https://web.archive.org/web/20070612161124/http://www.wonderland.org.nz/rnss.htm List of SSSR/Russian anti-ship missiles]

{{Missile types}}

[[Category:Anti-ship missiles| ]]
[[Category:Missile types]]
[[Category:Naval warfare]]
[[Category:German inventions of the Nazi period]]