Searchlight

For other uses, see Searchlight (disambiguation).
Edison's classic searchlight cart

A searchlight (or spotlight) is an apparatus that combines an extremely luminous source (traditionally a carbon arc lamp) with a mirrored parabolic reflector to project a powerful beam of light of approximately parallel rays in a particular direction, usually constructed so that it can be swiveled about.

Military use

The Royal Navy used searchlights in 1882 to prevent Egyptian forces from staffing artillery batteries at Alexandria. Later that same year, the French and British forces landed troops under searchlights.[1]

By 1907 the value of searchlights had become widely recognized. One recent use was to assist attacks by torpedo boats by dazzling gun crews on the ships being attacked. Other uses included detecting enemy ships at greater distances, as signaling devices, and to assist landing parties. Searchlights were also used by battleships and other capital vessels to locate attacking torpedo boats and were installed on many coastal artillery batteries for aiding night combat. They saw use in the Russo-Japanese War from 1904–05.[2]

Searchlights were installed on most naval capital ships from the late 19th century through WWII, both for tracking small, close-in targets such as torpedo boats, and for engaging enemy units in nighttime gun battles. The Imperial Japanese Navy especially was known for its intensive development of nighttime naval combat tactics and extensive training. The War in the Pacific saw a number of nocturnal engagements fought by searchlight, particularly the Battle of Savo Sound at Guadalcanal. Although searchlights remained in use throughout the war, the newly developed radar proved to be a far more effective locating device, and Japanese radar development lagged far behind that of the US.

First World War

Searchlights were first used in the First World War to create "artificial moonlight" to enhance opportunities for night attacks by reflecting searchlight beams off of the bottoms of the clouds, a practice which continued in the Second World War. "Artificial moonlight" was invented by the historian and tank warfare theorist, General J. F. C. Fuller. The term "artificial moonlight" was used to distinguish illumination provided by searchlights from that provided by normal moonlight, which was referred to as "movement light" in night-time manoeuvers.[3] Searchlights were also heavily used in the defense of the UK against German nighttime bombing raids using Zeppelins.

Second World War

Searchlights were used extensively in defense against nighttime bomber raids during the Second World War. Controlled by sound locators and radars, searchlights could track bombers, indicating targets to anti-aircraft guns and night fighters and dazzling crews.

Searchlights were occasionally used tactically in ground battles. One famous occasion was the Soviets' use of searchlights during the Battle of Berlin in April 1945. 143 searchlights were directed at the German defense force across the Neisse River, with the aim of temporarily blinding them during a Soviet offensive, begun with the largest artillery bombardment the world had even seen until that point. However, the morning fog diffused the light and silhouetted the attacking Soviet forces, making them clearly visible to the Germans. The Soviets suffered heavy losses as a result and were forced to delay their invasion of the city.

Second World War-era searchlights include models manufactured by General Electric and by the Sperry Company (of gyroscope fame). These were mostly of 60 inch (152.4 cm) diameter with rhodium plated parabolic mirror, reflecting a carbon arc discharge. Peak output was 800,000,000 candela. It was powered by a 15 kW generator and had an effective beam visibility of 28 to 35 miles (45 to 56 km) in clear low humidity.

The searchlight also found a niche for use by night fighters and anti-submarine warfare aircraft. The Turbinlite was a powerful searchlight mounted under the wing of an RAF Douglas Boston light bomber, converted into a night fighter to shoot down Luftwaffe night bombers. The aircraft would be directed in the general direction of the enemy by ground-based or meter-wave aerial radar, and the pilot would then switch on the Turbinlite, illuminating the enemy aircraft, which would then be shot down by accompanying RAF day fighters such as the Hawker Hurricane. This never proved very successful, as the light made the emitting aircraft a very big target for rear gunners, who would simply have to shoot into the light and be guaranteed to hit something eventually.

During the Battle of the North Atlantic, RAF aircraft such as the Vickers Wellington were assigned to patrol for surfaced German U-boats at night, when they would be on the surface, charging their batteries. A large searchlight called a "Leigh light" was suspended from the bottom of the wing or fuselage, and would be used to illuminate the surfaced U-boat while it was being attacked with bombs and depth charges. The Leigh light was somewhat more successful than the Turbinlite, but in both cases the development of centimeter-wave radar proved to be the far more effective answer.

Non-military use

Searchlights at New Year's Eve 2012 from the W Office Building at Bonifacio High Street in Bonifacio Global City, Metro Manila, Philippines.
Use of searchlights at the Luminato arts festival in Toronto
Searchlights demonstrating the height of Tokyo Skytree before its construction in 2007

Today, searchlights are used in advertising, fairs, festivals and other public events. Their use was once common for movie premieres; the waving searchlight beams can still be seen as a design element in the logo of the 20th Century Fox movie studio, the Fox television network, and their corporate parent 21st Century Fox. The world's most powerful searchlight today beams from the top of the pyramid-shaped Luxor Hotel in Las Vegas. The beam concentrates about 13,650,000 lumens from 39 7 kW xenon lamps into its beam of about 9,129,000,000 candela. The brightness emanating from the Luxor lamp room is about twice that which emanates from an equal area of the sun's surface (about 95,000,000 cd/ft2 versus 45,000,000 cd/ft2).

See also

References

Notes

  1. Sterling, Christopher H. Military Communications. ABC-CLIO. pp. 395–396. ISBN 978-1-85109-732-6.
  2. Barry, Richard (1905). Port Arthur: A Monster Heroism. Moffat, Yard & Co. pp. 324–325.
  3. "Artificial Moonlight". Tactical and Technical Trends (US Army Military Intelligence Corps) (57). April 1945.

External links

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