An anti-submarine indicator loop was a submerged cable laid on the sea bed and used to detect the passage of enemy submarines.

History

In the first years of World War I submarines were fearful, one-sided weapons because they were invisible. In July 1915 Arthur Balfour replaced Winston Churchill as First Lord of the Admiralty. Balfour appreciated the importance of science, so he established a Board of Invention and Research (BIR), composed of a three-man central committee supported by an eminent consulting panel. The remits of Section II of the panel included submarines, its members included physicists Ernest Rutherford and William Henry Bragg. The panel concluded that the most promising approach was to listen for submarines, so they sought to improve hydrophones. Soon Bragg moved to the hydrophone research centre HMS Tarlair at Aberdour on the Firth of Forth (which later relocated to Harwich in Essex). Diagram of an underwater loop

Independently from the BIR, in August 1915, a submerged cable was laid on the seabed of the Firth of Forth. The idea originated with the Scottish physicist Alexander Crichton Mitchell, who was helped by the Royal Navy at HMS Tarlair. He had shown that the passage of a submarine past a cable formed an induction loop which induced a voltage of approximately a millivolt, detectable by a sensitive galvanometer. Voltages were also induced in the cable by random fluctuations in the Earth's magnetic field and electrical noise from the Glasgow tram lines. Mitchell installed an identical loop outside of the channel for vessels, the two loops were connected so that the random fluctuations cancelled each other out. A rheostat was used to give the two loops identical resistances, so that no current flowed until a vessel approached. Unfortunately his report to the BIR was misunderstood and his findings rejected as of no value. Consequently, there was a hiatus in the installation of loops until their utility was demonstrated beyond question. With Bragg's leadership a number were installed. Later in World War I the tiny induced voltages were amplified by

vacuum tube A vacuum tube, electron tube, valve (British usage), or tube (North America), is a device that controls electric current flow in a high vacuum between electrodes to which an electric voltage, potential difference has been applied. The type kn ...

amplifiers. Even with this assistance a long loop installed to monitor traffic in the

English Channel The English Channel, "The Sleeve"; nrf, la Maunche, "The Sleeve" ( Cotentinais) or (Jèrriais), ( Guernésiais), "The Channel"; br, Mor Breizh, "Sea of Brittany"; cy, Môr Udd, "Lord's Sea"; kw, Mor Bretannek, "British Sea"; nl, Het Kan ...

proved impractical. The "Liverpool Cable" used for the loops consisted of four core, single strand 1.23 mm copper wire sheathed in 2-layer rubber insulation of diameter 3.7 mm that was wrapped in jute identification tape. The cores are separated by five strands of 36-thread cotton serving, wrapped in two layers of

linen Linen () is a textile made from the fibers of the flax plant. Linen is very strong, absorbent, and dries faster than cotton. Because of these properties, linen is comfortable to wear in hot weather and is valued for use in garments. It also ...

identification tape, all encased in a 12.8 mm diameter lead sheath that was wrapped in 18 strands of tarred hemp serving and armoured with 26 strand 2.0 mm steel wire to a final diameter of 18.8 mm. The cores were wired together when the cable was used for a loop. A notable operational use of a loop was at the Grand Fleet's anchorage at

Scapa Flow Scapa Flow viewed from its eastern end in June 2009 Scapa Flow (; ) is a body of water in the Orkney Islands, Scotland, sheltered by the islands of Mainland, Graemsay, Burray,S. C. George, ''Jutland to Junkyard'', 1973. South Ronaldsay an ...

. The German submarine ''UB-116'' captained by Lieutenant JJ Emsmann who along with his crew had volunteered for a suicide mission was detected by

hydrophone A hydrophone ( grc, ὕδωρ + φωνή, , water + sound) is a microphone designed to be used underwater for recording or listening to underwater sound. Most hydrophones are based on a piezoelectric transducer that generates an electric potent ...

s at 21:21 on 28 October 1918 while entering the harbour via Hoxa Sound. There were no allied vessels in the harbour, therefore the indicator loops on the minefields were activated. Two hours later (at 23:32) current was detected in an indicator loop laid in a remotely controlled minefield, induced by the submarine as it passed over the cable. Activation of the loop detonated mines in the field, sinking the submarine. It was the last U-boat destroyed by enemy action before the Armistice, ironically when it had no prey. The wreck of ''UB-116'' was raised in 1919 but floundered while being towed and its broken-up scraps fell back onto the seabed, where now they are popular with scuba divers. After the First World War, indicator loop devices were further developed by the Admiralty's research divisions at HMS Vernon and HMS Osprey (Portland Naval Base). In WWII indicator loops were used by the Allies for harbour defence in the UK and its dominions and protectorates, as well as by the US Navy. For example, the Hoxa channel into Scapa Flow was provided with two guard loops followed by eight mine loops in echelon. An indicator loop gave the first warning of the 1942 attack on Sydney Harbour, when it detected the midget submarine M-14, but this was ignored owing to civilian traffic in the area. The submarine was soon sighted visually, after it became entangled in a submarine net and its bow broke the surface.

References

{{Reflist Indicator loop Scottish inventions Weapons and ammunition introduced in 1915 1915 establishments in Scotland