Dive bomber
A
dive bomber is a
bomber aircraft that
dives directly at its targets in order to provide greater accuracy and limit the exposure to and effectiveness of anti-aircraft fire.
Diving (nearly) vertically at the target, in the same direction the bombs will take, the aircraft will release the bombs very close to the target at high speed. This allows a dive bomber to accurately place bombs on relatively small and/or moving targets with relative ease. Additionally, no complicated precision equipment like the American
Norden bombsight is needed. Dive bombers were widely used to attack high value targets such as ships and bridges.
The first recorded use of dive bombing was an ad-hoc solution by
RAF pilots during
World War I. During
1917 and
1918 they practiced the technique at the
Orfordness Bombing Range, but the
aircraft of the day were generally too frail to be able to withstand the acceleration generated when pulling out of the dive after releasing the bombload. Only a few years later
US Marines nevertheless put the system to use in
Haiti and
Nicaragua.
As planes grew in strength and load capability, the technique became more valuable. By the early
1930s the technique was clearly favored in tactical doctrine, notably against targets that would otherwise be too small to hit with
level bombers. While the
USAAC concentrated on mass attacks by very large bombers, the
US Navy ordered the first custom dive bomber aircraft, the
Curtiss F8C Hell-Diver biplane (not to be confused with the single-winged Douglas SBD or later SB2C Helldiver).
In the early 1930s,
Ernst Udet visited the US and was able to purchase four F8C's and ship them to
Germany. There they caused a minor revolution. The dive bombing technique would allow a much smaller
Luftwaffe to operate effectively in the tactical role, and this was all they were interested in. Soon they had sent out contracts for their own dive bomber designs, resulting in the
gull-winged Junkers Ju 87 Stuka (a contraction of
Sturzkampfflugzeug, literally "diving fighter airplane").
 |
Junkers Ju-87 dive bombers |
For its day the Stuka was the most advanced dive bomber in the world. Using it as "aerial artillery" solved a major problem in the concept of
Blitzkrieg; how to attack dug-in defensive positions. Normally this would require slow-moving
artillery to be used, making the fast moving armored forces wait for it to catch up.
This was proven to great effect during the invasion of
Poland and the
Low Countries (notably the
bombing of Rotterdam in May
1940). In one particular example the
BEF set up strong defensive positions on the west bank of the Oire River just front of the rapidly advancing German armor. Attacks by Stukas quickly broke the defense, and combat engineers were able to force a crossing long before the artillery arrived.
The Stuka soon grew outdated, but repeated efforts to replace it with a newer and more capable plane all failed. By the start of the
Battle of Britain it was already hopelessly outclassed, and suffered stiffly at the hands of the RAF.
The
Japanese also spent considerable effort on dive bombers, for the same reason as the US Navy – to allow it to strike ships. They started the war with one of the best designs, the
Aichi D3A, but this design also quickly became outdated. They later introduced the much better
Yokosuka D4Y Suisei, but at a time when their industry was already unable to supply them in any numbers. In contrast the US fielded the
Douglas SBD Dauntless which was similar to the D3A in performance, but later replaced it with the faster, more complex
Curtiss SB2C Helldiver. Both were provided in large numbers.
The most famous example of successful dive-bombing attacks took place in the
Battle of Midway in June 1942 when American
Dauntlesses scored fatal hits on three separate first-line Japanese aircraft carriers within a six minute timespan.
Oddly the only major force not to deploy a dedicated dive bomber were the inventors, the British. The
Royal Navy attempted to introduce their own on several occasions, but were never able to do so due to various reasons, not the least of which was political interference by the RAF. The only produced hybrid of dive bomber and fighter
Blackburn Skua was used for a short time and in a small number.
After the war the dive bomber class quickly disappeared. Anti-aircraft artillery had improved as had the speed and effectiveness of fighter aircraft against the vulnerable, slow-flying dive bombers. At the same time the quality of various computing bombsights allowed for much better accuracy from smaller dive angles, and could be fitted to almost any plane, especially
fighter aircraft. See
Ground attack aircraft. Although the aircraft still "dove" on their targets to some degree, these same aircraft were capable of many other missions as well and were no longer considered to be dive bombers.
Today
smart bombs have replaced most other bombing techniques in the United States and European countries. Bombs can be dropped many miles from the target at high altitudes, placing the aircraft at little risk. The bomb then guides itself onto the target through a number of means. These include
laser designation, onboard
GPSs, radar, infrared, television guidance, and inertial wind-correction. Bombsights continue to supply several "
toss bombing" modes, a sort of reverse dive bombing when an aircraft releases its bomb while steeply pulling up from low level. Shallow, 45 degree or less dive bombing attacks are still used to deliver unguided iron and cluster bombs when they are employed.
