USS Scorpion, 22 August 1960, off New London, Connecticut | |
History | |
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United States | |
Name | Scorpion |
Ordered | 31 January 1957 |
Builder | General Dynamics Electric Boat |
Laid down | 20 August 1958 [1] |
Launched | 29 December 1959 [1] |
Commissioned | 29 July 1960 [1] |
Stricken | 30 June 1968 [1] |
Nickname(s) | USS Scrapiron [2] |
Fate | Lost with all 99 crew on 22 May 1968; cause of sinking unknown |
Status | Located on the seabed of the Atlantic Ocean, 32°55′N33°09′W / 32.917°N 33.150°W , [3] in 3,000 m (9,800 ft) of water, 740 km (400 nmi) southwest of the Azores |
Badge | |
General characteristics | |
Class and type | Skipjack-class submarine |
Displacement |
|
Length | 251 ft 8 in (76.71 m) |
Beam | 31 ft 7.75 in (9.6457 m) |
Draft | 9.1 m (29 ft 10 in) |
Propulsion | S5W reactor |
Complement | 8 officers, 75 enlisted |
Armament |
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USS Scorpion (SSN-589) was a Skipjack-class nuclear-powered submarine that served in the United States Navy, the sixth vessel and second submarine to carry that name.
Scorpion sank on 27 May 1968. She is one of two nuclear submarines that the U.S. Navy has lost, the other being USS Thresher. [4] She was one of the four submarine disappearances in 1968, the others being the Israeli submarine INS Dakar, the French submarine Minerve, and the Soviet submarine K-129.
The wreckage of the Scorpion remains in the North Atlantic Ocean with all its armaments and nuclear reactor.
Scorpion's keel was laid down 20 August 1958 by General Dynamics Electric Boat in Groton, Connecticut. She was launched 19 December 1959, sponsored by Elizabeth S. Morrison, the daughter of the last commander of the World War II-era USS Scorpion (SS-278), Lt. Cdr. Maximilian Gmelich Schmidt (that ship was also lost with all hands, in 1944). Scorpion was commissioned 29 July 1960, with Commander Norman B. Bessac in command. [5] [a]
Assigned to Submarine Squadron 6, Division 62, Scorpion departed New London, Connecticut, on 24 August for a two-month European deployment. During that time, she participated in exercises with 6th Fleet units and NATO-member navies. After returning to New England in late October, she trained along the Eastern Seaboard until May 1961. On 9 August 1961, she returned to New London, moving to Norfolk, Virginia, a month later. [5] In 1962, she earned a Navy Unit Commendation. [6]
Norfolk was Scorpion's homeport for the remainder of her career, and she specialized in developing nuclear submarine warfare tactics. Varying roles from hunter to hunted, she participated in exercises along the Atlantic Coast, and in Bermuda and Puerto Rico operating areas. From June 1963 to May 1964, she underwent an overhaul at Charleston. She resumed duty in late spring, but regular duties were again interrupted from 4 August to 8 October for a transatlantic patrol. In the spring of 1965, she conducted a similar patrol in European waters.[ citation needed ]
In 1966, she deployed for special operations. After completing those assignments, her commanding officer received a Navy Commendation Medal for outstanding leadership, foresight, and professional skill. Other Scorpion officers and crewmen were also cited for meritorious achievement. [5] Scorpion is reputed to have entered an inland Russian sea during a "Northern Run" in 1966, where the crew filmed a Soviet missile launch through her periscope before fleeing from Soviet Navy ships.[ citation needed ]
On 1 February 1967, Scorpion entered Norfolk Naval Shipyard for a refueling overhaul. Instead of a much-needed complete overhaul, though, she received only emergency repairs to get quickly back on duty. The preferred SUBSAFE [7] [8] program required increased submarine overhaul times, from 9 to 36 months. SUBSAFE required intensive vetting of submarine component quality, coupled with various improvements and intensified structural inspections – particularly of hull welding, using ultrasonic testing.
Cold War pressures had prompted U.S. Submarine Force Atlantic (SUBLANT) officers to cut corners. The last overhaul of the Scorpion cost one-seventh of those performed on other nuclear submarines at the same time. This was the result of concerns about the "high percentage of time offline" for nuclear attack submarines, estimated at 40% of total available duty time.[ citation needed ]
Scorpion's original "full overhaul" was reduced in scope. Long-overdue SUBSAFE work, such as a new central valve control system, was not performed. Crucially, her emergency system was not corrected for the same problems that destroyed Thresher. While Charleston Naval Shipyard claimed the emergency main ballast tank blow (EMBT) system worked as-is, SUBLANT claimed it did not, and their EMBT was "tagged out" (listed as unusable). Perceived problems with overhaul duration led to a delay on all SUBSAFE work in 1967.[ citation needed ]
Chief of Naval Operations Admiral David Lamar McDonald approved Scorpion's reduced overhaul on 17 June 1966. On 20 July, McDonald deferred SUBSAFE extensions, otherwise deemed essential since 1963.[ verification needed ]
In late October 1967, Scorpion started refresher training and weapons-system acceptance tests, and was given a new commanding officer, Francis Slattery. Following type training out of Norfolk, Virginia, she got underway on 15 February 1968 for a Mediterranean Sea deployment. She operated with the 6th Fleet into May and then headed west for home. [5]
Scorpion suffered several mechanical malfunctions, including a chronic problem with freon leakage from refrigeration systems. An electrical fire occurred in an escape trunk when a water leak shorted out a shore power connection. No evidence was found that Scorpion's speed was restricted in May 1968, although it was conservatively observing a depth limitation of 500 feet (150 m), due to the incomplete implementation of planned post-Thresher safety checks and modifications. [9]
After departing the Mediterranean on 16 May, Scorpion dropped two men at Naval Station Rota in Spain, one for a family emergency and one for health reasons. Some U.S. ballistic missile submarines (SSBNs) operated from the U.S. Naval base Rota; USS Scorpion is thought to have provided noise cover for USS John C. Calhoun when they both departed to the Atlantic. Along with Soviet intelligence trawlers, Soviet fast nuclear attack submarines [10] were attempting to detect and follow the U.S. submarines going out of Rota, in this case, two fast 32-knot Soviet November-class hunter-killer subs. [9]
Scorpion was then detailed to observe Soviet naval activities in the Atlantic in the vicinity of the Azores. An Echo II-class submarine was operating with this Soviet task force, as well as a Russian guided-missile destroyer. [11] Having observed and listened to the Soviet units, Scorpion prepared to head back to Naval Station Norfolk.[ citation needed ]
Scorpion attempted to send radio traffic to Naval Station Rota for an unusually long period beginning shortly before midnight on 20 May and ending after midnight on 21 May, but was only able to reach a Navy communications station in Nea Makri, Greece, which forwarded the messages to COMSUBLANT. [9] Lt. John Roberts was handed Commander Slattery's last message that he was closing on the Soviet submarine and research group, running at a steady 15 kn (28 km/h; 17 mph) at a depth of 350 ft (110 m) "to begin surveillance of the Soviets." [9] Scorpion was expected to arrive at her homeport of Norfolk, Virginia, on 27 May at 1300 local time. After she was overdue for several hours, the Atlantic fleet launched a sea and air search during the peak search period from 28 to 30 May involving as many as 55 ships and 35 search aircraft. A brief radio message including Scorpion's codename Brandywine was received by several search parties on the evening of 29 May. The source could not be identified in the search area derived from the bearings of the radio message. [12] [13]
The Navy suspected possible failure and launched a search, but Scorpion and her crew were declared "presumed lost" on 5 June. Her name was struck from the Naval Vessel Register on 30 June. The search continued with a team of mathematical consultants led by John Piña Craven, the chief scientist of the Navy's Special Projects Division. They employed the methods of Bayesian search theory, initially developed during the search for a hydrogen bomb lost off the coast of Palomares, Spain, in January 1966 in the Palomares B-52 crash. [14]
Some reports indicate that a large and secret search was launched three days before Scorpion was expected back from patrol. This and other declassified information led to speculation that the Navy knew of Scorpion's destruction before the public search was launched. [15]
At the end of October 1968, the Navy's oceanographic research ship Mizar located sections of the hull of Scorpion on the seabed, about 400 nmi (740 km) southwest of the Azores [16] under more than 9,800 ft (3,000 m) of water. This was after the Navy had released sound tapes from its underwater SOSUS listening system, which contained the sounds of the destruction of Scorpion. [17] The court of inquiry was subsequently reconvened, and other vessels, including the bathyscaphe Trieste II, were dispatched to the scene to collect pictures and other data.
Craven received much credit for locating the wreckage of Scorpion, although Gordon Hamilton was instrumental in defining a compact "search box" wherein the wreck was ultimately found. He was an acoustics expert who pioneered the use of hydroacoustics to pinpoint Polaris missile splashdown locations, and he had established a listening station in the Canary Islands, which obtained a clear signal of the vessel's pressure hull imploding as it passed crush depth. Naval Research Laboratory scientist Chester Buchanan used a towed camera sled of his own design aboard Mizar and finally located Scorpion. [16]
The bow of Scorpion appears to have skidded upon impact with the globigerina ooze on the sea floor, digging a sizable trench. The sail had been dislodged, as the hull of the operations compartment upon which it perched disintegrated, and was lying on its port side. One of Scorpion's running lights was in the open position, as if it had been on the surface at the time of the mishap, although it may have been left in the open position during the vessel's recent nighttime stop at Rota. One Trieste II pilot who dived on Scorpion said that the shock of the implosion might have knocked the light into the open position.
The secondary Navy investigation – using extensive photographic, video, and eyewitness inspections of the wreckage in 1969 – suggested that Scorpion's hull was crushed by implosion forces as it sank below crush depth. The Structural Analysis Group, which included Naval Ship Systems Command's Submarine Structures director Peter Palermo, plainly saw that the torpedo room was intact, though it had been pinched by excessive sea pressure. The operations compartment collapsed at frame 33, this being the king frame of the hull, reaching its structural limit first. The conical/cylindrical transition piece at frame 67 followed instantly. The boat was broken in two by massive hydrostatic pressure at an estimated depth of 1,530 ft (470 m). The operations compartment was largely obliterated by sea pressure, and the engine room had telescoped 50 ft (15 m) forward into the hull due to collapse pressure, when the cone-to-cylinder transition junction failed between the auxiliary machine space and the engine room.
The only damage to the torpedo room compartment appeared to be a hatch missing from the forward escape trunk. Palermo pointed out that this would have occurred when water pressure entered the torpedo room at the moment of implosion.
The sail was ripped off, as the hull beneath it folded inward. The propulsion shaft came out of the boat; the engineering section had collapsed inward in a telescoping fashion. The broken boat fell another 9,000 ft (2,700 m) to the ocean floor.
Photos taken in 1986 by Alvin, released by the Navy in 2012, show the broken inboard end of the propulsion shaft.
Shortly after her sinking, the Navy assembled a court of inquiry to investigate the incident and to publish a report regarding the likely causes for its loss. The court was presided over by Vice Admiral Bernard L. Austin, who had presided over the inquiry into the loss of Thresher. The report's findings were first made public on 31 January 1969. While ruling out sabotage, the report said: "The certain cause of the loss of the Scorpion cannot be ascertained from evidence now available." [18]
In 1984, the Norfolk Virginian-Pilot and The Ledger-Star obtained documents related to the inquiry, and reported that the likely cause of the disaster was the detonation of a torpedo while the Scorpion's own crew attempted to disarm it. [19] The U.S. Navy declassified many of the inquiry's documents in 1993. [20]
An extensive, year-long analysis of Gordon Hamilton's hydroacoustic signals of the submarine's demise was conducted by Robert Price, Ermine Christian, and Peter Sherman of the Naval Ordnance Laboratory (NOL). All three physicists were experts on undersea explosions, their sound signatures, and their destructive effects. Price was also an open critic of Craven. Their opinion, presented to the Navy as part of the phase II investigation, was that the death noises likely occurred at 2,000 ft (610 m) when the hull failed. Fragments then continued in a free fall for another 9,000 ft (2,700 m). This appears to differ from conclusions drawn by Craven and Hamilton, who pursued an independent set of experiments as part of the same phase II probe, demonstrating that alternate interpretations of the hydroacoustic signals were possibly based on the submarine's depth at the time it was stricken and other operational conditions.[ citation needed ]
The Structural Analysis Group (SAG) concluded that an explosive event was unlikely and was highly dismissive of Craven and Hamilton's tests. The SAG physicists argued that the absence of a bubble pulse, which invariably occurs in an underwater explosion, is absolute evidence that no torpedo explosion occurred outside or inside the hull. Craven had attempted to prove that Scorpion's hull could "swallow" the bubble pulse of a torpedo detonation by having Gordon Hamilton detonate small charges next to air-filled steel containers.[ citation needed ]
The 1970 Naval Ordnance Laboratory "Letter", [21] the acoustics study of Scorpion destruction sounds by Price and Christian, was a supporting study within the SAG report. In its conclusions and recommendations section, the NOL acoustic study states: "The first SCORPION acoustic event was not caused by a large explosion, either internal or external to the hull. The probable depth of occurrence ... and the spectral characteristics of the signal support this. In fact, it is very unlikely that any of the Scorpion acoustic events were caused by explosions." [21]
The NOL based many of its findings on an extensive acoustic analysis of the torpedoing and sinking of the decommissioned submarine Sterlet in the Pacific in early 1969, seeking to compare its acoustic signals to those generated by Scorpion. Price found the Navy's scheduled sinking of Sterlet fortunate. Nonetheless, Sterlet was a small World War II-era diesel-electric submarine of a vastly different design and construction from Scorpion with regard to its pressure hull and other characteristics. Its sinking resulted in three identifiable acoustic signals, as compared to Scorpion's 15. [21] [ better source needed ]
The NOL acoustics study provided a highly debated explanation as to how Scorpion may have reached its crush depth by anecdotally referring to the near-loss incident of the diesel submarine Chopper in January 1969, when a power problem caused her to sink almost to crush depth, before surfacing. [22]
In the same May 2003 N77 letter excerpted above (see 1. with regard to the Navy's view of a forward explosion), however, the following statement appears to dismiss the NOL theory, and again unequivocally point the finger toward an explosion forward:[ citation needed ]
The Navy has extensively investigated the loss of Scorpion through the initial court of inquiry and the 1970 and 1987 reviews by the Structural Analysis Group. Nothing in those investigations caused the Navy to change its conclusion that an unexplained catastrophic event occurred.
The remains of the Scorpion are reportedly resting on a sandy seabed at 32°54.9′N33°08.89′W / 32.9150°N 33.14817°W in the North Atlantic Ocean. [23] The wreck lies at a depth of 9,800 ft (3,000 m) about 400 nmi (740 km) southwest of the Azores on the eastern edge of the Sargasso Sea. [23]
The U.S. Navy periodically revisits the site to determine whether wreckage has been disturbed and to test for the release of any fissile materials from the submarine's nuclear reactor or two nuclear weapons. Except for a few photographs taken by deep-water submersibles in 1968 and 1985, the U.S. Navy has never made public any physical surveys it has conducted on the wreck. The last photos were taken by Robert Ballard and a team of oceanographers from Woods Hole using the submersible Alvin in 1985. The U.S. Navy secretly lent Ballard the submersible to visit the wreck sites of the Thresher and Scorpion. In exchange for his work, the U.S. Navy then allowed Ballard, a USNR officer, to use the same submersible to search for RMS Titanic. [24] [25]
Due to the radioactive nature of the Scorpion wreck site, the U.S. Navy has had to publish what specific environmental sampling it has done of the sediment, water, and marine life around the sunken submarine to establish what impact it has had on the deep-ocean environment. The information is contained within an annual public report on the U.S. Navy's environmental monitoring for all U.S. nuclear-powered ships and boats. The reports explain the methodology for conducting deep-sea monitoring from both surface vessels and submersibles. These reports say the lack of radioactivity outside the wreck shows the nuclear fuel aboard the submarine remains intact and no uranium in excess of levels expected from the fallout from past atmospheric testing of nuclear weapons has been detected during naval inspections. Likewise, the two nuclear-tipped Mark 45 torpedoes that were lost when the Scorpion sank show no signs of instability.[ citation needed ] The plutonium and uranium cores of these weapons likely corroded to a heavy, insoluble material soon after the sinking. The materials remain at or close to their original location inside the boat's torpedo room. If the corroded materials were released outside the submarine, their density and insolubility would cause them to settle into the sediment. [26] [ improper synthesis? ]
In November 2012, the U.S. Submarine Veterans, an organization with over 13,800 members, asked the U.S. Navy to reopen the investigation on the sinking of USS Scorpion. The Navy rejected the request. A private group including family members of the lost submariners stated they would investigate the wreckage on their own, since it was located in international waters. [27]
Retired acoustics expert Bruce Rule, a long-time analyst for the Integrated Undersea Surveillance System (IUSS), wrote that a hydrogen explosion sank Scorpion. [28]
Dave Oliver, a retired rear admiral who served in both diesel boats and nuclear submarines, wrote in his book Against the Tide that Scorpion was lost as a result of hydrogen build-up due to changes in the ventilation lineup while proceeding to periscope depth. After analysis of the ship's battery cells, this is the leading theory for the loss of Scorpion. [29] This is consistent with two small explosions aboard the submarine, a half-second apart, that were picked up by hydrophones. [17]
The classified version of the U.S. Navy's court of inquiry's report, released in 1993, listed accidents involving the Mark 37 torpedo as three of the most probable causes for the loss of submarine, [30] including a hot-running torpedo, an accidentally or deliberately launched weapon, or the inadvertent activation of a torpedo by stray voltage. The acoustic homing torpedo, in a fully ready condition and lacking a propeller guard, is theorized by some to have started running within the tube. Released from the tube, the torpedo then somehow became fully armed and engaged its nearest target: Scorpion herself. [31]
A later theory was that a fire in the torpedo room had caused a torpedo to explode in the tube. The book Blind Man's Bluff documents findings and investigation by John Craven, who was the chief scientist of the Navy's Special Projects Office, which had management responsibility for the design, development, construction, operational test and evaluation, and maintenance of the UGM-27 Polaris fleet missile system. Craven surmised that a faulty battery had overheated. [4] The Mark 46 silver–zinc battery used in the Mark 37 torpedo had a tendency to overheat, and in extreme cases could cause a fire that was strong enough to cause a low-order detonation of the warhead. If such a detonation had occurred, it might have opened the boat's large torpedo-loading hatch and caused Scorpion to flood and sink. However, while Mark 46 batteries have been known to generate so much heat that the torpedo casings blistered, none are known to have damaged a boat or caused an explosion. [32]
Craven mentions that he did not work on the Mark 37 torpedo's propulsion system and became aware of the possibility of a battery explosion only 20 years after the loss of Scorpion. In his book The Silent War, he recounts a simulation run by former Scorpion executive officer Lieutenant Commander Robert Fountain Jr. Fountain was told he was headed home at 18 knots (33 km/h) at a depth of his choice, then there was an alarm of "hot-running torpedo". Fountain responded with "right full rudder", a quick turn that would activate a safety device and keep the torpedo from arming. Then, an explosion in the torpedo room was introduced. Fountain ordered emergency procedures to surface the boat, Craven wrote, "but instead, she continued to plummet, reaching collapse depth and imploding in 90 seconds – one second shy of the acoustic record of the actual event."[ citation needed ]
Craven had long believed Scorpion was struck by her own torpedo, but revised his views during the mid-1990s, when he learned that engineers testing Mark 46 batteries at Keyport, Washington, just before the Scorpion's loss, said the batteries leaked electrolyte and sometimes burned while outside their casings during lifetime shock, heat, and cold testing. Although the battery manufacturer was accused of building bad batteries, it was later able to successfully prove its batteries were no more prone to failure than those made by other manufacturers.[ citation needed ]
Twenty years later, Craven learned that the boat could have been destroyed by a "hot-running torpedo." Other subs in the fleet had replaced their defective torpedo batteries, but the Navy wanted Scorpion to complete its mission first. If Scorpion had fired a defective torpedo, it could have sought out a target and turned back to strike the sub that launched it. [33]
Photographs of the Scorpion wreck show the submarine's detached shaft and propeller, missing a rotor blade. Some experienced U.S. submariners attribute the loss of the submarine to flooding caused by the detached shaft. [34] [35] Given that antisubmarine torpedoes were designed to seek the sound of the cavitation of the target submarine's propeller, this could be damage caused by such a weapon. [36]
During the 1968 inquiry, Vice Admiral Arnold F. Shade testified that he believed that a malfunction of the trash disposal unit (TDU) caused the disaster. Shade theorized that the boat was flooded when the TDU was operated at periscope depth and that other subsequent failures of material or personnel while dealing with the TDU-induced flooding led to the submarine's demise. [37]
The book All Hands Down by Kenneth Sewell and Jerome Preisler (Simon and Schuster, 2008) concludes that Scorpion was destroyed while en route to gather intelligence on a Soviet naval group conducting operations in the Atlantic. [38]
Ed Offley's book Scorpion Down promotes a hypothesis suggesting that Scorpion was sunk by a Soviet submarine during a standoff that started days before 22 May. Offley also cites that it occurred roughly at the time of the submarine's intelligence-gathering mission, for which she was redirected from her original heading for home. According to Offley, the Soviet flotilla had just been harassed by USS Haddo, another U.S. submarine. [39]
Both All Hands Down and Scorpion Down point toward involvement by the KGB spy ring led by John Anthony Walker, Jr. in the heart of the U.S. Navy's communications, stating that it could have known that Scorpion was coming to investigate the Soviet flotilla. According to this theory, both navies agreed to hide the truth about both USS Scorpion and K-129 incidents. Several USN and RN submarines collided with Soviet Echo-class subs in Russian and British waters in this period, showing greatly enhanced aggression in Soviet Navy sub operations in 1968. The navy Minister in the British Labour government noted 11 such deliberate collisions. [40] Commander Roger Lane Nott, Royal Navy commander of HMS Splendid during the 1982 Falklands War, stated that a Soviet submarine entered the Firth of Clyde channel in Scotland in 1972, and Conqueror was given the order to "chase it out". The Soviets realized that they were being followed, and "a very aggressive Soviet captain turned his submarine and drove her straight at HMS Conqueror. It had been an extremely close call." [41]
According to a translated article from Pravda , Moscow never issued a "fire" command during the Cold War. [42] This is disputed by Royal Navy officers: "there had been other occasions when harassed Russians had fired torpedoes to scare off trails". [41]
The results of the U.S. Navy's various investigations into the loss of Scorpion are inconclusive. While the court of inquiry never endorsed Craven's torpedo theory regarding the loss of Scorpion, its "findings of facts" released in 1993 carried Craven's torpedo theory at the head of a list of possible causes of Scorpion's loss. [43] [44]
The first cataclysmic event was of such magnitude that the only possible conclusion is that a cataclysmic event (explosion) occurred resulting in uncontrolled flooding (most likely the forward compartments). [43] [44]
In 1998, two New York Times reporters published Blind Man's Bluff: The Untold Story of American Submarine Espionage [45] discussing espionage during the Cold War. One lengthy chapter deals extensively with Scorpion and her loss. The authors report that concerns were raised in 1967 and 1968 about the Mk 37 torpedo carried aboard Scorpion—before Scorpion left Norfolk for her last mission. The concerns focused on the battery that powered the torpedoes. The battery had a thin metal-foil barrier separating two types of volatile chemicals. The chemicals generated heat and electricity when mixed slowly and in controlled conditions, powering the motor that pushed the torpedo through the water; but vibrations normally experienced on a nuclear submarine were found to cause the thin foil barrier to break down, allowing the chemicals to interact intensely. This interaction generated excessive heat, which could have caused an inadvertent torpedo explosion. The authors highlight information discovered during the investigation which contradicts the investigation's findings. They cite a hot-running torpedo incident on the USS Sargo (SSN-583) prior to the loss of Scorpion, although Sargo was moored at the time and not lost. [46]
In 2005, the book Red Star Rogue: The Untold Story of a Soviet Submarine's Nuclear Strike Attempt on the U.S., [47] by former American submariner Kenneth Sewell in collaboration with journalist Clint Richmond, claimed that Soviet submarine K-129 was sunk 300 nmi (560 km) northwest of Oahu on 7 March 1968 while attempting to launch her three ballistic missiles, in a rogue attempt to destroy Pearl Harbor.[ citation needed ]
Sewell claims that the sinking of Scorpion was caused by a retaliatory strike for the sinking of K-129, which the Soviets had attributed to a collision with USS Swordfish.[ citation needed ]
In 1995, when Peter Huchthausen began work on a book about the Soviet underwater fleet, he interviewed former Soviet Admiral Victor Dygalo, who stated that the true history of K-129 has not been revealed because of the informal agreement between the two countries' senior naval commands. The purpose of that secrecy, he alleged, is to stop any further research into the losses of either Scorpion or K-129. Huchthausen states that Dygalo told him to "forget about ever resolving these sad issues for the surviving families." [48]
All Hands Down [9] was written by Kenneth R. Sewell, a nuclear engineer and a U.S. Navy veteran who spent five years aboard Parche, a fast attack submarine. It attempts to link the sinking of Scorpion with the Pueblo incident, the John Anthony Walker spy ring, and Cold War Soviet aggression. The thesis of this book is that action off the Canary Islands was the direct cause of the sinking. The author purports that this is supported by motives in the Soviet Navy following the sinking of K-129, which caused the Russian Navy to trap a U.S. submarine. The bait for this trap would be strange military operations and furtive naval manoeuvres in the Atlantic, accompanied by countermeasures that would seemingly be defeated only by the deployment of a nuclear submarine. With information from spying by Walker, the position and arrival time of Scorpion was known by the Russians, and its sinking followed the springing of the trap. The book claims Scorpion was sunk by a Ka-25 helicopter equipped with antisubmarine torpedoes, which took off from one ship and landed on a different one. This was so that no one, other than the aircrew of the helicopter, would notice one torpedo missing.[ citation needed ]
The book then purports a cover-up by American and Soviet officials, to avoid public outrage and an increase in Cold War tension.[ citation needed ]
Ed Offley, a reporter on military affairs, has closely followed developments in information concerning the sinking of the Scorpion. His most recent article on the subject is "Buried at Sea" published in the Winter 2008 issue of the Quarterly Journal of Military History. This article summarizes the facts in the case as presented in his 2007 book Scorpion Down: Sunk by the Soviets, Buried by the Pentagon: The Untold Story of the USS Scorpion. [10] In the book, Offley, gathering decades of his own research, hypothesizes that Scorpion was sunk by the Soviets, possibly in retaliation for the loss of K-129 earlier that year. The book paints a picture of increasing Soviet anger at U.S. Navy provocations — specifically, close-in monitoring of Soviet naval operations by almost every U.S. nuclear submarine. Around the same time, the Soviet intelligence community scored a huge boon in receiving the mechanical cryptologic devices (TSAC/KW- 7) from Pueblo. These machines, combined with daily crypto keys from the Walker spy ring, likely allowed the Soviets to monitor U.S. Navy ship dispositions and communications.[ citation needed ]
Offley contends that the Scorpion was tracked by several Soviet Navy assets from the Mediterranean to its final operational area south of the Azores, where it was then sunk by a Soviet torpedo. He claims the U.S. Navy was aware of the loss of the Scorpion on 21 May 1968, and by the night of 22 May 68, deep concern had arisen over the Scorpion after not receiving the required 24-hr, four-word communication check required on operational duty, in the SUBCOMLANT communication center at Norfolk on the evidence of two 2nd-class radiomen on the deck that night, among junior USN officers, and the unit supervisor, Warrant Officer J. Walker, confirmed to interested staff that no check transmission from Scorpion was received that night, and by the morning of 23 May 1968, the SUBCOMLANT center was full of admirals and a Marine general, and no doubt interested about the loss of Scorpion, [49] and the US government and Navy were engaged in a massive cover-up, within days destroying much of the sound and communication data at SOSUS ground stations in the U.S. and Europe, [50] and delaying any public indication of the loss until the ship's scheduled arrival at Norfolk, Virginia, five days later, partly to disguise the fact that U.S. nuclear subs were in constant or frequent communication with U.S. naval communication bases and that the subsequent search for the Scorpion was a five-month-long deception to pretend they had no idea of the hull's location. [51]
The oral testimony Offley relied upon are recollections of surviving SOSUS recordings documenting torpedo sounds, evasion sounds, an explosion, and eventually the sounds of implosions as Scorpion plunged past crush depth.[ citation needed ]
In a section from this 2014 book titled "The Danger of Culture", retired U.S. Navy Rear Admiral Dave Oliver offers the theory based on his own experiences that a hydrogen explosion, either during or immediately following a battery charge, possibly destroyed USS Scorpion and killed her crew. The proximate cause in that scenario would have been the procedural carryover from diesel-boat days wherein the boat was effectively rigged for collision—with subsequent changes in ventilation flow and watertight condition—before proceeding to periscope depth by way of setting "Condition Baker". Oliver had personally witnessed dangerously high hydrogen level spikes under such conditions aboard a nuclear submarine, specifically while going to periscope depth and setting Condition Baker during a battery charge. Diesel boats, in contrast, were not capable of doing a battery charge while deeply submerged, but were instead dealing with the risk of collision while on antisurface-ship operations when proceeding to periscope depth while in or near shipping lanes. In regard to NAVSEA responsibility, he further states: "I always felt that the investigators closed their eyes to the most likely cause because they did not want to acknowledge their own involvement in this tragedy. I had forwarded my letter about Condition Baker via some of the same people responsible for the Scorpion investigation." [52]
Phil Ochs released a song on his album Rehearsals for Retirement (1969) titled "The Scorpion Departs but Never Returns". [53] [54]
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The Los Angeles class of submarines are nuclear-powered fast attack submarines (SSN) in service with the United States Navy. Also known as the 688 class after the hull number of lead vessel USS Los Angeles (SSN-688), 62 were built from 1972 to 1996, the latter 23 to an improved 688i standard. As of 2024, 24 of the Los Angeles class remain in commission—more than any other class in the world—and they account for almost half of the U.S. Navy's 50 fast attack submarines.
A submarine is a watercraft capable of independent operation underwater. The term “submarine” is also sometimes used historically or informally to refer to remotely operated vehicles and robots, or to medium-sized or smaller vessels. Submarines are referred to as boats rather than ships regardless of their size.
The Sturgeon class was a class of nuclear-powered fast attack submarines (SSN) in service with the United States Navy from the 1960s until 2004. They were the "workhorses" of the Navy's attack submarine fleet throughout much of the Cold War. The boats were phased out in the 1990s and early 21st century, as their successors, the Los Angeles, followed by the Seawolf and Virginia-class boats, entered service.
K-219 was a Project 667A Navaga-class ballistic missile submarine of the Soviet Navy. It carried 16 R-27U liquid-fuel missiles powered by UDMH with nitrogen tetroxide (NTO). K-219 was involved in what has become one of the most controversial submarine incidents during the Cold War on Friday 3 October 1986. The 15-year-old vessel, which was on an otherwise routine Cold War nuclear deterrence patrol in the North Atlantic 1,090 kilometres (680 mi) northeast of Bermuda, suffered an explosion and fire in a missile tube. While underway a submerged seal in a missile hatch cover failed, allowing high-pressure seawater to enter the missile tube and owing to the pressure differential ruptured the missile fuel tanks, allowing the missile's liquid fuel to mix and ultimately combust. Though there was no official announcement, the Soviet Union claimed the leak was caused by a collision with the submarine USS Augusta. Although Augusta was operating within the area, both the United States Navy and the commander of K-219, Captain Second Rank Igor Britanov, deny that a collision took place.
USS Thresher (SSN-593) was the lead boat of her class of nuclear-powered attack submarines in the United States Navy. She was the U.S. Navy's second submarine to be named after the thresher shark.
An attack submarine or hunter-killer submarine is a submarine specifically designed for the purpose of attacking and sinking other submarines, surface combatants and merchant vessels. In the Soviet and Russian navies they were and are called "multi-purpose submarines". They are also used to protect friendly surface combatants and missile submarines. Some attack subs are also armed with cruise missiles, increasing the scope of their potential missions to include land targets.
USS Greenling (SSN-614) was a Permit-class submarine. She was the second ship of the United States Navy to be named for the greenling, an elongated, fine-scaled fish found from Kamchatka to California. Her keel was laid down on 15 August 1961 by General Dynamics Electric Boat of Groton, Connecticut.
The Permit-class submarine was a class of nuclear-powered fast attack submarines in service with the United States Navy from the early 1960s until 1996. They were a significant improvement on the Skipjack class, with greatly improved sonar, diving depth, and silencing. They were the forerunners of all subsequent US Navy SSN designs. They served from the 1960s through to the early 1990s, when they were decommissioned due to age. They were followed by the Sturgeon and Los Angeles classes.
The Skipjack class was a class of United States Navy nuclear submarines (SSNs) that entered service from 1959 to 1961. This class was named after its lead boat, USS Skipjack. The new class introduced the teardrop hull and the S5W reactor to U.S. nuclear submarines. The Skipjacks were the fastest U.S. nuclear submarines until the Los Angeles-class submarines, the first of which entered service in 1974.
A nuclear submarine is a submarine powered by a nuclear reactor, but not necessarily nuclear-armed. Nuclear submarines have considerable performance advantages over "conventional" submarines. Nuclear propulsion, being completely independent of air, frees the submarine from the need to surface frequently, as is necessary for conventional submarines. The large amount of power generated by a nuclear reactor allows nuclear submarines to operate at high speed for long periods, and the long interval between refuelings grants a virtually unlimited range, making the only limits on voyage times being factors such as the need to restock food or other consumables. The limited energy stored in electric batteries means that even the most advanced conventional submarine can remain submerged for only a few days at slow speed, and only a few hours at top speed, though recent advances in air-independent propulsion have somewhat ameliorated this disadvantage. The high cost of nuclear technology means that relatively few of the world's military powers have fielded nuclear submarines. Radiation incidents have occurred within the Soviet submarines, including serious nuclear and radiation accidents, but American naval reactors starting with the S1W and iterations of designs have operated without incidents since USS Nautilus (SSN-571) launched in 1954.
The names of commissioned ships of the United States Navy all start with USS, for United States Ship. Non-commissioned, primarily civilian-crewed vessels of the U.S. Navy under the Military Sealift Command have names that begin with USNS, standing for United States Naval Ship. A letter-based hull classification symbol is used to designate a vessel's type. The names of ships are selected by the Secretary of the Navy. The names are those of states, cities, towns, important persons, important locations, famous battles, fish, and ideals. Usually, different types of ships have names originated from different types of sources.
There are three major types of submarines in the United States Navy: ballistic missile submarines, attack submarines, and cruise missile submarines. All submarines currently in the U.S. Navy are nuclear-powered. Ballistic missile submarines have a single strategic mission of carrying nuclear submarine-launched ballistic missiles. Attack submarines have several tactical missions, including sinking ships and subs, launching cruise missiles, and gathering intelligence. Cruise missile submarines perform many of the same missions as attack submarines, but with a focus on their ability to carry and launch larger quantities of cruise missiles than typical attack submarines.
The Submarine Safety Program (SUBSAFE) is a quality assurance program of the United States Navy designed to maintain the safety of its submarine fleet, specifically, to provide maximum reasonable assurance that submarine hulls will stay watertight, and that they can recover from unanticipated flooding.
The history of the submarine goes back to antiquity. Humanity has employed a variety of methods to travel underwater for exploration, recreation, research and significantly, warfare. While early attempts, such as those by Alexander the Great, were rudimentary, the advent of new propulsion systems, fuels, and sonar, propelled an increase in submarine technology. The introduction of the diesel engine, then the nuclear submarine, saw great expansion in submarine use — and specifically military use — during World War I, World War II, and the Cold War. The Second World War use of the U-Boat by the Kriegsmarine against the Royal Navy and commercial shipping, and the Cold War's use of submarines by the United States and Russia, helped solidify the submarine's place in popular culture. The latter conflicts also saw an increasing role for the military submarine as a tool of subterfuge, hidden warfare, and nuclear deterrent. The military use of submarines continues to this day, predominantly by North Korea, China, the United States and Russia.
To Kill the Potemkin (ISBN 978-0917657801) is a novel by Mark Joseph originally published in 1986. As a paperback, it spent four weeks on The New York Times bestseller list in July and August 1987.
K-129 was a Project 629A diesel-electric-powered ballistic-missile submarine that served in the Pacific Fleet of the Soviet Navy. It was one of six Project 629 strategic ballistic-missile submarines assigned to the 15th Submarine Squadron based at Rybachiy Naval Base near Petropavlovsk-Kamchatsky, commanded by Rear Admiral Rudolf Golosov.
Project Nobska was a 1956 summer study on anti-submarine warfare (ASW) for the United States Navy ordered by Chief of Naval Operations Admiral Arleigh Burke. It is also referred to as the Nobska Study, named for its location on Nobska Point near the Woods Hole Oceanographic Institution (WHOI) on Cape Cod, Massachusetts. The focus was on the ASW implications of nuclear submarines, particularly on new technologies to defend against them. The study was coordinated by the Committee on Undersea Warfare (CUW) of the National Academy of Sciences (NAS). It was notable for including 73 representatives from numerous organizations involved in submarine design, submarine-related fields, and weapons design, including senior scientists from the Atomic Energy Commission's nuclear weapons laboratories. Among the participants were Nobel laureate Isidor Rabi, Paul Nitze, and Edward Teller. The study's recommendations influenced all subsequent US Navy submarine designs, as well as submarine-launched ASW tactical nuclear weapons until this weapon type was phased out in the late 1980s. New lightweight and heavyweight anti-submarine torpedo programs were approved. Although not on the initial agenda, the Polaris submarine-launched ballistic missile (SLBM) was determined to be capable of implementation at this conference. Within five years Polaris would dramatically improve the US Navy's strategic nuclear deterrent capability.
... the Navy continues to attach strong credence to Craven's view that an explosion destroyed her, as is evidenced by this excerpt from a May 2003 letter from the Navy's Submarine Warfare Division (N77), specifically written by Admiral P.F. Sullivan on behalf of Vice Admiral John J. Grossenbacher (Commander Naval Submarine Forces), the Naval Sea Systems Command, Naval Reactors, and others in the US Navy regarding its view of alternative sinking theories: "The first cataclysmic event was of such magnitude that the only possible conclusion is that a cataclysmic event (explosion) occurred resulting in uncontrolled flooding (most likely the forward compartments)."
Craven, who was the Chief Scientist of the Navy's Special Projects Office, which had management responsibility for the design, development, construction, operational test and evaluation and maintenance of the UGM-27 Polaris Fleet Missile System had long believed Scorpion was struck by her own torpedo, but revised his views during the mid-1990s when he learned that engineers testing Mark 46 batteries at Keyport, Washington just before the Scorpion's loss, said the batteries leaked electrolyte and sometimes burned while outside their casings during lifetime shock, heat and cold testing. Although the battery manufacturer was accused of building bad batteries, it was later able to successfully prove its batteries were no more prone to failure than those made by other manufacturers.