The Third Reich at War (109 page)

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Authors: Richard J. Evans

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BOOK: The Third Reich at War
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Propaganda Minister Goebbels was particularly exercised by the effects of the raids on popular morale. If G̈ring (‘a disaster’ in Goebbels’s view) had failed to provide adequate protection against the raids, then something needed to be done to convince people that the regime had not failed altogether. Somewhat callously, Hitler initially took the view that the destruction offered the opportunity for urban improvement (‘From the aesthetic viewpoint,’ he opined, ‘the towns do not present all that good a picture. Most industrial cities are badly laid out, fusty and abominably built. Here, the British air raids will give us space’).
30
Nevertheless, he too became increasingly angered by the destruction, and declared that ‘the British will stop only if their cities are destroyed ... Terror is broken by terror.’
31

Characteristically, Goebbels favoured bombing the parts of British cities ‘where the plutocrats live’.
32
To demand this degree of precision, however, was clearly unrealistic. Moreover, the German air force had no four-engined bombers, no high-altitude bombers, and no specialized night-bombers. Senior officers were delaying production of new models by demanding that they should be capable of dive-bombing enemy infantry and tanks. G̈ring declared in September 1942 that Germany’s lack of long-distance bombers made him ‘weep’.
33
Nevertheless, the air force scraped together some 440 bombers, mostly older models like the Ju88, for a raid on London on the night of 21 - 2 January 1944, derisively nicknamed the ‘Baby Blitz’ by the British. About 60 per cent of the 475 tons of bombs carried as payload were incendiaries: this was to be a retaliatory raid, causing maximum damage to the English capital city’s housing stock. In the event, however, only 30 tons fell on the target, and indeed only half the bombs managed to hit the English mainland at all. Another raid a week later was no better. More than 100 planes suffered mechanical problems and had to turn back. Half the new Heinkel 177s were lost, four of them when their engines caught fire. The machine still had not been properly tried and tested. Hitler called it a ‘crap machine ... probably the worst machine that was ever produced’.
34
Two dozen or so further raids followed on a variety of targets from Portsmouth to Torquay, each involving around 200 aircraft, until losses and mechanical failures reduced the numbers to little more than 100 towards the end of the campaign, in April and May 1944. The damage done was not very significant. Except in the successful raids on London on 18, 20 and 24 February and 21 March 1944, most bombs failed to reach their target, and the total tonnage dropped was tiny compared to what was hitting Germany. Long before the offensive came to an end in May 1944, it was clear that something new was required. A range of ‘miracle’ or ‘wonder-weapons’ was under development already. Hitler and Goebbels held out the promise that these would soon reverse the fortunes of war and snatch victory from the jaws of defeat.
35

III

The first of these weapons to be deployed was a pilotless ‘flying bomb’. It was named, with Hitler’s immediate approval, the V-1 by Hans Schwarz van Berkl, a journalist on Goebbels’s organ
The Reich
, on 17 June 1944. The name signified its function as a means of retaliation against the Allies, in revenge for the destruction of German towns and cities by Allied bombs, in a situation where raids by piloted bombers were clearly having no significant effect. The ‘V’ stood for
Vergeltung
, retribution, an appellation that already betrayed an unspoken assumption that their moral purpose was greater than their military effectiveness could ever be. The V-I resulted from experimental projects developed in the mid-1930s, when the engineer Paul Schmidt had begun work on a pulsejet system that would operate through rapid intermittent explosions. To speed up progress, the Air Ministry had asked the Argus air-engine company to take the project over in 1939, and the pulsejet engine was tried out on a small fighter plane in 1941-2. However, its extreme noisiness and the vibrations it caused made it impossible to use in manned aircraft. The alternative was an ‘aerial torpedo’, or what would now be called a cruise missile, and in June 1942 the Air Ministry gave its formal approval to a full development programme to be carried out by the aircraft manufacturing firm of Fieseler. It took another two years to reach the production stage. On 13 June 1944, at Hitler’s urgent command, the first ten V-I flying bombs were catapulted from their coastal launch ramps towards London. Their fuel was calculated to run out over the British capital, when they would fall to the ground and explode. Londoners listened to the throbbing of the motors as the V-IS came over, waiting anxiously for them to cut out, then counting the seconds till the explosion. The psychological effect was considerable. Hitler ordered a massive boost in production late in June 1944. A total of 22,384 of the missiles were fired (1,600 from aircraft, the rest from launch ramps), but between a third and a half failed to reach their target. Some ran out of fuel too soon, while others were shot down by anti-aircraft fire or by fighter planes that could outfly the slow-moving missiles, whose speed of 375 mph they could easily better. Speer later thought that Hitler and his entourage, including himself, ‘far overestimated its effects’. As the Allies overran the launch-sites, increasing numbers of V-IS were launched from Germany at Belgium, and particularly at Antwerp, which was hardly the purpose for which they had been designed. By September 1944 it was clear that the V-I had failed to break British morale, and the programme was scaled back; the few that were launched at London from within Germany itself in 1945 had to carry much smaller warheads to enable them to cover the longer distance, and had little effect.
36

The second and more technically sophisticated of the two ‘V’ weapons was a ballistic rocket developed by the army as a rival to the air force’s V-I. Scientists had first begun working on liquid-fuel rockets at the end of the 1920s, in part inspired by a Fritz Lang film,
The Woman in the Moon
. A variety of groups, some backed by aircraft manufacturers like Hugo Junkers, experimented with various kinds of fuel, some of them dangerously volatile. By the late 1930s, a wealthy young aristocrat, Wernher von Braun, had emerged as the most important of the rocketry pioneers. Born in 1912, the young von Braun had grown up in a conservative, nationalist family; his father had lost his job as a civil servant as a result of supporting the Kapp putsch in 1920 and subsequently become a banker. In 1932 von Braun senior had become Minister of Agriculture in the reactionary government of Franz von Papen, but he had lost this job too when Hitler had come to power. The older von Braun’s right-wing politics, however, provided his son with a set of attitudes that made it easy for him to enter the service of the Nazi government. After studying mechanical engineering at the Technical University of Berlin and completing a Ph.D. in applied physics, on liquid-fuel rocketry, Wernher von Braun got funding from the army and the air force, and set up a testing range at Peenem̈nde, a remote wilderness of beaches, marshes and dunes on the northern end of the island of Usedom, on the Baltic coast, where his grandfather had spent holidays many years before, hunting ducks. Joining the Nazi Party in 1937 and the SS three years later, von Braun possessed the credentials, connections, charm and charisma needed to persuade the military to increase the funds they devoted to this improbable project. The problems von Braun and his expanding team had to solve were formidable: the fuel had to be stable as well as powerful, the aerodynamics of the rockets had to be reliable, the guidance systems effective. Von Braun had to fight for allocations of key equipment like steel and indispensable components like gyroscopes, transmitters and turbopumps, and he had to acquire scientific experts and skilled workers against competition from areas of the war economy with a higher priority than the testing and development of experimental rockets.
37

Crucially, however, von Braun managed to convince Albert Speer of the importance of the project. ‘I liked mingling with this circle of non-political young scientists and inventors headed by Wernher von Braun - twenty-seven years old, purposeful, a man realistically at home in the future,’ Speer later recalled.
38
Visiting Peenem̈nde shortly after his appointment as Armaments Minister, along with General Fromm, Field Marshal Milch and a representative of the navy, Speer watched the first firing of a remote-controlled rocket. ‘With the roar of an unleashed giant,’ he later recalled, ‘the rocket rose slowly from its pad, seemed to stand upon its jet of flame for the fraction of a second, then vanished with a howl into the low clouds. Wernher von Braun was beaming.’ Deeply impressed by this technical wizardry, Speer was being told by the technicians the ‘incredible distances the projectile was covering, when, a minute and a half after the start, a rapidly swelling howl indicated that the rocket was falling in the immediate vicinity. We all froze where we stood. It struck the ground only a half a mile away.’
39
Not surprisingly, on hearing reports of the trial, Hitler was not convinced of the project’s future. But his initial scepticism was overcome after Speer reported the first successful trial, on 14 October 1942, when one of the rockets travelled 120 miles and fell within two and a half miles of its target. Now it was Hitler’s turn to be enthused. With a disregard for reality that was becoming obvious in other fields as well, he declared that 5,000 missiles had to be produced for launching against the British capital. A film presentation by von Braun convinced Hitler that the rocket would become ‘the decisive weapon of the war’.
40

With this backing, the rocket programme now prospered. Before long, however, it became necessary to shift production away from Peenem̈nde to somewhere more secure. Allied intelligence and reconnaissance flights had provided alarming information about this and other secret weapons sites, and a fleet of almost 600 bombers had been sent to the rocket development complex at Peenem̈nde to destroy it. The site survived the raid on 18 August 1943, but a good deal of damage had been caused none the less. Keen to extend his own power over the programme, Himmler persuaded Hitler that production should be relocated to an underground site well away from the destructive attention of Allied bombers. Himmler commissioned a senior SS officer, Hans Kammler, to set up this new manufacturing centre. Kammler had an engineering background and had played a significant role in the Air Ministry before moving across to help manage the building of the extermination camps at Auschwitz-Birkenau, Majdanek and Belzec. From early in 1942 he was in charge of the construction department of the SS Economy and Administration Head Office.
40
Speer thought he bore an uncanny resemblance to Reinhard Heydrich, ‘blond, blue-eyed, long-headed, always neatly dressed, and well bred’, but also ‘a cold, ruthless schemer, a fanatic in the pursuit of a goal, and as carefully calculating as he was unscrupulous’. Yet, at first, Speer got on well with Kammler, describing him as ‘in many ways my mirror image’, a middle-class university graduate who ‘had gone far and fast in fields for which he had not been trained’, a man whose ‘objective coolness’ he found attractive.
41
After scouting various possibilities, Speer, Kammler and the rocket team settled on a complex of old gypsum mines near the town of Nordhausen in the Harz mountains in Thuringia. Kammler quickly began arranging the conversion of the mines into a new rocket production centre, known as the ‘Central Works’ (
Mittelwerk
) in a vague allusion to their geographical position, and organized the transfer of the salvageable equipment and papers from Peenem̈nde.
42

To carry out the construction work, the SS established a sub-camp of Buchenwald, known as ‘Work Camp Dora’, at the site. By October 1943, 4,000 prisoners, most of them Russian, Polish and French, were at work in the mine, blasting, digging and mixing and pouring concrete; by the end of November 1943 their number had doubled. ‘Pay no attention to the human cost,’ declared Kammler. ‘The work must go ahead, and in the shortest possible time.’
43
Rather than spend time and money on building barracks to house the prisoners outside the mines, as originally intended, Kammler had the SS wall off cross-tunnels 43 to 46 and got the prisoners to put together wooden bunk-beds, each of them four levels high. The damp atmosphere of the cold tunnels, where the temperature never rose above 15 degrees Celsius (59 degrees Fahrenheit), was made worse by constant dust from blasting work. There were no proper sanitary facilities, the water supplies were in no way sufficient, and the prisoners were unable to wash. Makeshift toilets consisted of large oil-drums sawn in half, with wooden boards placed over them. It was one of the SS guards’ favourite jokes to approach the workers from behind as they sat on the boards and push them in. The prisoners, sleeping two or more to a bed, quickly became dirty, unkempt and lice-ridden.
44
One French prisoner described his arrival at the site on 14 October 1943:

The Kapos and SS drive us on at an infernal speed, shouting and raining blows down on us, threatening us with execution . . . The noise bores into the brain and rends the nerves. The demented rhythm lasts for fifteen hours. Arriving at the dormitory . . . we do not even try to reach the bunks. Drunk with exhaustion, we collapse onto the rocks, onto the ground. Behind, the Kapos press us on. Those behind trample over their comrades. Soon over a thousand despairing men, at the limit of their existence and racked with thirst, lie there hoping for sleep which never comes; for the shouts of the guards, the noise of the machines, the explosions and the ringing of the bell reach them even there.
45

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