Operation Mosaic was a series of two British nuclear tests conducted in the Montebello Islands in Western Australia on 16 May and 19 June 1956. These tests followed the Operation Totem series and preceded the Operation Buffalo series. The second test in the series was the largest ever conducted in Australia.
Mosaic | |
---|---|
Information | |
Country | United Kingdom |
Test site | Montebello Islands, Western Australia |
Period | May–June 1956 |
Number of tests | 2 |
Test type | tower |
Max. yield | 60 kilotonnes of TNT (250 TJ) |
Test series chronology | |
The purpose of the tests was to explore increasing the yield of British nuclear weapons through boosting with lithium-6 and deuterium, and the use of a natural uranium tamper. Although a boosted fission weapon is not a hydrogen bomb, which the British Government had agreed would not be tested in Australia, the tests were connected with the British hydrogen bomb programme.
The Operation Totem tests of 1953 had been carried out at Emu Field in South Australia, but Emu Field was considered unsuitable for Operation Mosaic. A new, permanent test site was being prepared at Maralinga in South Australia, but would not be ready until September 1956. It was decided that the best option was to return to the Montebello Islands, where Operation Hurricane had been conducted in 1952. To allow the task force flagship, the tank landing ship HMS Narvik, to return to the UK and refit in time for Operation Grapple, the planned first test of a British hydrogen bomb, 15 July was set as the terminal date for Operation Mosaic. The British Government was anxious that Grapple should take place before a proposed moratorium on nuclear testing came into effect. The second test was therefore conducted under time pressure.
At the time of the Royal Commission into British nuclear tests in Australia it was claimed that the second test was of a significantly higher yield than suggested by the official figures: 98 kilotonnes of TNT (410 TJ) as compared to 60 kilotonnes of TNT (250 TJ), but this remains unsubstantiated.
Background
editDuring the early part of the Second World War, Britain had a nuclear weapons project, code-named Tube Alloys,[1] which the 1943 Quebec Agreement merged with the American Manhattan Project to create a combined American, British, and Canadian project. The British Government expected that the United States would continue to share nuclear technology after the war, which it regarded as a joint discovery, but the United States Atomic Energy Act of 1946 (McMahon Act) ended technical cooperation.[2] Fearing a resurgence of United States isolationism, and Britain losing its great power status, the British Government restarted its own development effort,[3] which was given the cover name "High Explosive Research".[4] The first British atomic bomb was tested in Operation Hurricane at the Montebello Islands in Western Australia on 3 October 1952.[5]
Britain thereby became the third nuclear power after the United States and the Soviet Union,[6] but just four weeks after Operation Hurricane, the United States successfully demonstrated a hydrogen bomb. The technology mastered in Operation Hurricane was six years old, and with the hydrogen bomb in hand, the US Congress saw no benefit in renewing cooperation with the UK.[7] All the while Britain strove for independence, at the same time it sought interdependence in the form of a renewal of the Special Relationship with the United States.[8] The British Government therefore resolved on 27 July 1954 to initiate the British hydrogen bomb programme.[9] At the time, momentum was gathering both domestically and internationally for a moratorium on nuclear testing. The British Government was most anxious that this should not occur before Britain had developed hydrogen bombs, which it was hoped would be achieved in 1957.[10]
Purpose and site selection
editIn thinking about thermonuclear designs, the British scientists at the Atomic Weapons Research Establishment at Aldermaston considered boosted fission weapons. These are a type of nuclear device in which isotopes of light elements such as lithium-6 and deuterium are added. The resulting nuclear fusion reactions produce neutrons, and thus increase the rate of fission, and therefore the yield. The British had no practical experience with boosting, so a test of the concept was required. The scientists had also heard a rumour from American sources that the yield could be improved by up to 50 per cent through the use of a natural uranium tamper. Two tests were therefore scheduled: one with a lead tamper to investigate the effect of lithium deuteride, and one with a natural uranium one to investigate effect of the tamper. It was hoped that the two tests would advance progress towards building a British hydrogen bomb.[11][12]
The need for speed dictated the location. The Operation Totem tests of 1953 had been carried out at Emu Field in South Australia, but it was considered unsuitable.[11] The area was too isolated, with the nearest road over 100 miles (160 km) away, and only tracked vehicles or those with special tyres could traverse the intervening sand dunes. Emu Field therefore relied on air transport, but dust storms were a problem. Moreover, a shortage of water severely limited the number of personnel at the site.[13] A new, permanent test site was therefore being prepared at Maralinga in South Australia, but it would not be ready until September 1956, and the Operation Buffalo tests were already scheduled to be held there. It was therefore decided that the best option was to return to the Montebello Islands, where the operation could be supported by the Royal Navy.[11] There were also doubts as to whether the Australian Government would allow a 50-kilotonne-of-TNT (210 TJ) test at Maralinga.[14]
This was a sensitive matter; there was an agreement with Australia that no thermonuclear testing would be carried out there.[11] The Australian minister for supply, Howard Beale, responding to rumours reported in the newspapers,[15] asserted that "the Federal Government has no intention of allowing any hydrogen bomb tests to take place in Australia. Nor has it any intention of allowing any experiments connected with hydrogen bomb tests to take place here."[16] While a boosted fusion weapon is not a hydrogen bomb, the tests were indeed connected with hydrogen bomb development.[17]
The prime minister of the United Kingdom, Sir Anthony Eden, cabled the prime minister of Australia, Robert Menzies, on 16 May 1955. Eden detailed the nature and purpose of the tests. He explained that the experiments would include the addition of light elements as a boost, but promised that the yield of neither test would exceed two and a half times that of the Operation Hurricane test. Neither the anticipated nor the actual yield of the Hurricane test had been officially disclosed to Australian officials,[17][18][19] but the yield was 25 kilotonnes of TNT (100 TJ), so this implied an upper limit was about 60 kilotonnes of TNT (250 TJ).[20] Later an 80-kilotonne-of-TNT (330 TJ) limit was agreed to.[21] Eden informed Menzies that the two shots would be from towers, which would produce a fifth of the fallout of that of Operation Hurricane, and there would be no danger to people or animals on the mainland. He explained that the use of the Montebello Islands would save as much as six months' of development time.[17][18][19] Menzies cabled his approval of the tests on 20 June.[22]
Preparations
editLike Operation Hurricane before it, the test was a Royal Navy responsibility. Planning commenced in February 1955 under the codename Operation Giraffe. In June 1955, the Admiralty adopted the codename Operation Mosaic.[23] The Atomic Trials Executive in London, chaired by Lieutenant General Sir Frederick Morgan, had already begun planning Operation Buffalo. It assumed responsibility for Operation Mosaic as well, sitting as the Mosaic Executive (Mosex) or Buffalo Executive (Buffalex) as appropriate.[24] Captain Hugh Martell would be in charge as commander Task Force 308, with the temporary rank of commodore.[25][26] Charles Adams from Aldermaston, who had been the deputy technical director to Leonard Tyte for Operation Hurricane and to William Penney on Operation Totem, was appointed the scientific director for Operation Mosaic, with Ieuan Maddock as the scientific superintendent. Group Captain S. W. B. (Paddy) Menaul would command the Air Task Group.[24] Planning was conducted at Aldermaston.[24]
On 18 July 1955 a five-man mission headed by Martell that included Adams, Menaul and Lieutenant Commanders A. K. Dodds and R. R. Fotheringham departed the UK for Australia. They arrived on 22 July, and began a series of discussions.[27] The Australian Government created a Montebello Working Party as a subcommittee of the Maralinga Committee as a counterpart to the British Mosex. Adams met with W. A. S. Butement of the recently formed Atomic Weapons Tests Safety Committee (AWTSC), an organisation created by the Australian Government to oversee the safety of nuclear tests. Mosex agreed that at least two members of the AWTSC would be present on board the Task Force 308 flagship, the Landing Ship, Tank, HMS Narvik, when the decision to fire was taken. He also had discussions with Leonard Dwyer, the Director of the Australian Bureau of Meteorology about the weather conditions that could be expected for the test. It was agreed that a Royal Australian Navy (RAN) frigate would act as a weather ship for the test series, and that a second weather ship might be required to give warnings of willy willys and cyclones.[28]
A small fleet of ships was assembled for Operation Mosaic. HMS Narvik began a refit at HM Dockyard, Chatham, in July 1955, which was completed by November. She departed the UK on 29 December 1955, and travelled via the Suez Canal, reaching Fremantle on 23 February 1956. The frigate HMS Alert, normally the yacht of the Commander-in-Chief, Far East Fleet, was loaned to act as an accommodation ship for scientists and VIPs. Along with the tanker RFA Eddyrock, they formed Task Group 308.1. The Far East Fleet also supplied the cruiser HMS Newfoundland, and destroyers HMS Cossack, Concord, Consort and Comus. These formed Task Group 308.3, which was mainly responsible for weather reporting. The destroyer HMS Diana was detailed to carry out scientific tests, and formed Task Group 308.4.[29][30]
They were augmented by RAN vessels, designated Task Group 308.2. The sloop HMAS Warrego and boom defence vessel Karangi carried out a hydrographic survey of the Montebello Islands, laying marker buoys for moorings. Care had to be taken with this, as Operation Hurricane had left some parts of the islands dangerously radioactive. The corvettes HMAS Fremantle and HMAS Junee provided logistical support, ferried personnel between the islands and the mainland, and accommodated 14 Australian and British media representatives during the first test. They were replaced by Karangi for the second test. A pair of RAN 120-foot (37 m) motor lighters, MWL251 and MRL252, provided water and refrigeration respectively.[29][31][32] The two barges were visited by the First Sea Lord, Admiral Lord Mountbatten, and Lady Mountbatten, who flew out to the islands on a Whirlwind helicopter on 15 April.[33][34]
Only a small party of Royal Engineers and two Aldermaston scientists travelled on Narvik. The main scientific party left London by air on 1 April. The Air Task Group consisted of 107 officers and 407 other ranks. Most were based at Pearce near Perth and Onslow in the Pilbara region, although four Royal Air Force (RAF) Shackletons and about 70 RAF personnel were based at RAAF Base Darwin, from whence the Shackletons daily flew weather reconnaissance flights,[29][32] commencing on 2 March. There was a cyclone three days later.[34] Three Royal Australian Air Force (RAAF) Neptunes flew safety patrols, five RAF Varsity aircraft tracked clouds and flew on low-level radiological survey missions, five RAF Canberra bombers were tasked with collecting radioactive samples, four RAF Hastings aircraft flew between the UK and Australia, and two Whirlwind helicopters provided a taxi service.[29][32] The United States Air Force (USAF) provided a pair of C-118 Liftmasters to collect radioactive samples.[35] Lieutenant-Colonel R. N. B. Holmes was in charge of the Royal Engineers, whose task including erecting the 300-foot (91 m) aluminium towers for the shots.[29]
G1
editAdams arrived at the Montebello Islands on 22 April, and was sufficiently impressed with the progress of works to schedule a scientific rehearsal for 27 April. A second scientific rehearsal was held on 2 May, followed by a full dress rehearsal on 5 May. The fissile material was delivered by an RAF Hastings to Onslow, from whence it was collected by HMS Alert on 11 May, and delivered to the Montebello Islands the following day.[34] Five members of the AWTSC—Leslie H. Martin, Ernest Titterton, Cecil Eddy, Butement and Dwyer—arrived at Onslow and were flown to Narvik by helicopter on 14 May.[36] The following day, Martell set 16 May as the date for the test.[34] There had been protests in Perth at the test series, and the deputy premier of Western Australia, John Tonkin, promised to discuss demands for an end to the tests.[37] Martin and Titterton confronted Martell and Adams, and Martin told them that without sufficient information about the nature of the tests, the AWTSC could not approve the test.[38] That it had a veto came as a surprise; it was not what their orders from London said.[39] Penney sent a message to Adams 10 May:
Strongly advise not showing Safety Committee any significant weapon details, but would not object to their seeing outside of cabled ball in centre section. They could be told that fissile material is at centre of large ball of high explosive and that elaborate electronics necessary to get symmetrical squash. No details of explosives configuration or inner components must be revealed. Appreciate that the position is awkward for you and that you must make minor concessions.[40]
Rather than stonewall, Adams and Martell disclosed the same information that had been given to Menzies, on condition that they kept it to themselves. This mollified them, and the G1 test went ahead.[36][38] The device was detonated on Trimouille Island at 03:50 UTC (11:50 local time) on 16 May.[41] Soon afterwards, Narvik and Alert entered the Parting Pool in the Montebello Islands. The Radiological Group, wearing full protective clothing, entered the lagoon in a cutter. They retrieved measuring instruments and conducted a ground survey. A tent with a decontamination area was established ashore, and a water pump allowed the Radiological Group to wash themselves before they returned to Narvik. The main danger to the ships' crews was considered to be from radioactive seaweed, so they were prohibited from catching or eating fish, and the ships' evaporators were not run. Spot checks were made to verify that there was no contamination on board. Most of the sample collection was completed by 20 May. An extra run was made to collect film badges from Hermite Island, and Maddock paid the crater a visit on 25 May to collect further samples. Two RAF Canberra bombers flew through the cloud to collect samples, one of which was flown by Menaul.[42]
The results of the test were mixed. The yield was between 15 and 20 kilotonnes of TNT (63 and 84 TJ), as had been anticipated,[43] although the mushroom cloud rose to 21,000 feet (6,400 m) instead of 14,000 feet (4,300 m) as predicted.[44] Valuable data was obtained. The implosion system had performed flawlessly, but the boosting effect of the lithium deuteride had been negligible; the process had not been fully understood.[43] HMS Diana, about 6 miles (9.7 km) from ground zero, was quickly decontaminated, and sailed for Singapore on 18 May.[34] The fallout cloud initially moved out to sea as predicted, but then reversed direction and drifted across northern Australia.[45] Tests on the aircraft at Onslow had detected signs of radioactive contamination from G1, indicating that some fallout had been blown over the mainland.[46]
G2
editThe results of G1 meant that a natural uranium tamper could be used in G2 without exceeding the planned 80 kilotonnes of TNT (330 TJ) limit agreed to with the AWTSC. (One of 100 kilotonnes of TNT (420 TJ) was used for safety purposes.) Scientific rehearsals for G2 were held on 28 and 31 May, followed by a full rehearsal on 4 June. The fissile core for the device was delivered to Onslow by RAF Hastings on 6 June, and once again was couriered to the Montebello Islands by HMS Alert. Then followed a period of waiting for suitable weather conditions.[21] The idea was to avoid, as far as possible, fallout being blown over the mainland. At this time of year winds at low altitudes were mainly subject to coastal influences, but above 10,000 feet (3,000 m) the prevailing winds were from the west. What was required was an interval during which the prevailing wind pattern was interrupted.[47]
These were not common at this time of the year; at the start of Operation Mosaic, it had been estimated that conditions favourable for G2 would occur only three days per month. In fact, since Narvik had arrived in March, not a single day had been suitable. And good weather conditions alone were insufficient; the meteorologists had to accurately forecast them. To allow Narvik to return to the UK and refit for Operation Grapple, the first test of a British hydrogen bomb, 15 July was set as the terminal date for Mosaic. As the deadline approached, William Cook, the scientist in charge of the hydrogen bomb project at Aldermaston, determined that in view of the results of G1, G2 was now more important than ever. He agreed that, if necessary, Grapple, could be delayed to conduct G2.[21] With time running short, the test procedures were altered to allow for a break in the weather to be exploited, with an earlier firing time and a shorter countdown.[48]
Another complication was safety. While the test of a larger device would normally mandate a larger safety area, Beale announced that G2 was going to be smaller than G1.[46][49][50] To avoid embarrassing him, the safety area was not enlarged, and no official announcement was made to the contrary.[46] The weather improved on 8 June, and Martell ordered the countdown to begin the following day, but Beale objected to a test being carried out on a Sunday. During Operation Totem there was an agreement that no tests would be conducted on Sundays. Mosex considered that matter in London, and directed Martell not to test on 10 June. The following 48 hours were unsuitable. On 17 June the meteorologists predicted a break in the weather and Martell ordered the countdown to recommence. Weather balloons indicated that conditions were stable between 5,000 and 24,500 feet (1,500 and 7,500 m), with an anomaly between 19,000 and 24,500 feet (5,800 and 7,500 m) that was not considered significant.[51]
G2 was detonated from a tower on Alpha Island at 02:14 UTC (10:14 local time) on 19 June. It produced a yield of 60 kilotonnes of TNT (250 TJ), making it the largest nuclear device ever detonated in Australia.[14] At the time of the Royal Commission into British nuclear tests in Australia in 1985, Joan Smith, a British investigative journalist, published a book, Clouds of Deceit: Deadly Legacy of Britain's Bomb Tests, in which she alleged that the G2 test had a significantly higher yield than suggested by available figures—98 kilotonnes of TNT (410 TJ) as compared to the official figure of 60 kilotonnes of TNT (250 TJ). She based this claim on "secret documents released to the Public Record Office in 1985", but the text was uncited, and the documents have never been found.[52] British official historian Lorna Arnold reported that she had never seen any such documents.[53]
The cloud rose to 47,000 feet (14,000 m), considerably higher than the predicted 37,000 feet (11,000 m).[14] The procedure for collecting samples was far more limited than that of G1. A Land Rover was landed from a Landing Craft Assault (LCA) and driven by a party wearing protective clothing to within 400 feet (120 m) of ground zero to collect samples and recover the blast measurement equipment. Another sortie was made to collect film badges from Hermite Island, and Maddock collected a sample from the G2 crater.[54] The Canberra sent to fly through the cloud had trouble finding it, and only after some searching located it about 80 miles (130 km) from where it was supposed to be. The following day, the Canberra sent to track the cloud and collect more samples could not locate it at all.[55] The bulk of the fallout drifted over the Arafura Sea, but owing to different winds at different altitudes, part of it again drifted over the mainland.[56]
As fallout was detected over northern Australia by monitoring stations, in combination with Beale's announcement that G2 would be smaller than G1, an impression was generated that something had gone horribly wrong.[56] The acting prime minister, Sir Arthur Fadden, ordered an inquiry.[57] Seamen in Fremantle demanded that the SS Koolinda, a cattle transport on which 75 cattle had died on board, be inspected, as it was feared that they had died from radioactive poisoning. The seamen refused to unload the remaining 479 cattle. A physicist from the Commonwealth X-Ray and Radium Laboratory (CXRL) with a Geiger counter found no evidence of radioactive contamination, and the deaths were determined to have resulted from red water disease caused by a malaria-like parasite.[58] It was estimated that someone living in Port Hedland, where the contamination was highest, would receive a dose of 580 microsieverts (0.058 rem) over a period of 50 years, assuming that they wore no clothes;[59] an annual exposure of 150 millisieverts (15 rem) is normally considered acceptable for occupational purposes.[60]
Aftermath
editBy the 1980s the radioactivity had decayed to the point where it was no longer hazardous to the casual visitor, but there were still radioactive metal fragments.[61] The island remained a prohibited area until 1992.[62] A 2006 zoological survey found that the wildlife had recovered.[63] As part of the Gorgon gas project, rats and feral cats were eradicated from the Montebello Islands in 2009, and birds and marsupials were transplanted from nearby Barrow Island to Hermite Island.[62] Today, the Montebello Islands are a park. Visitors are advised not to spend more than an hour per day at the test sites, or to take relics of the tests as souvenirs.[62] A pyramid-shaped obelisk marks the site of the G2 explosion on Alpha Island.[64]
Summary
editName | Date time (UTC) | Local time zone | Location | Elevation + height | Delivery | Yield | References | Notes |
---|---|---|---|---|---|---|---|---|
G1 | 16 May 1956 03:50 | AWST (+8 hrs) | Trimouille Island, Montebello Islands, Western Australia 20°23′S 115°33′E / 20.38°S 115.55°E | 4 m (13 ft) + 31 m (102 ft) | tower, weapons development | 15 kt | [41] | Boosted fission weapon design with lithium deuteride |
G2 | 19 June 1956 02:14 | AWST (+8 hrs) | Alpha Island, Montebello Islands, Western Australia 20°25′S 115°32′E / 20.41°S 115.54°E | 8 m (26 ft) + 31 m (102 ft) | tower, weapons development | 60 kt | [41][52] | Boosted fission with lithium deuteride and natural uranium tamper |
Notes
edit- ^ Gowing 1964, pp. 108–111.
- ^ Jones 2017, pp. 1–2.
- ^ Gowing & Arnold 1974a, pp. 181–184.
- ^ Cathcart 1995, pp. 24, 48, 57.
- ^ Jones 2017, p. 25.
- ^ Arnold & Smith 2006, p. 47.
- ^ Paul 2000, pp. 196–197.
- ^ Gowing & Arnold 1974b, pp. 500–501.
- ^ Baylis 1995, pp. 160–163, 179–185.
- ^ Arnold & Smith 2006, pp. 82–86.
- ^ a b c d Arnold & Smith 2006, pp. 106–110.
- ^ Leonard 2014, p. 209.
- ^ Arnold & Smith 2006, pp. 52–53, 89.
- ^ a b c McClelland 1985a, p. 233.
- ^ "No Hydrogen Bomb Tests". The Canberra Times. Vol. 30, no. 8, 772. Australian Capital Territory, Australia. 16 February 1956. p. 1. Retrieved 28 May 2017 – via National Library of Australia.
- ^ "We Bar H-Bomb Test Here So Britain Seeks Ocean Site". The Argus (Melbourne). Victoria, Australia. 19 February 1955. p. 1. Retrieved 28 May 2017 – via National Library of Australia.
- ^ a b c Arnold & Smith 2006, pp. 109–112.
- ^ a b Symonds 1985, p. 310.
- ^ a b McClelland 1985b, pp. 478–479.
- ^ Arnold & Smith 2006, p. 301.
- ^ a b c Arnold & Smith 2006, pp. 124–126.
- ^ "Maralinga nuclear testing. Mosaic tests: were they H-bombs?". The Canberra Times. Vol. 59, no. 17, 900. Australian Capital Territory, Australia. 1 October 1984. p. 12. Retrieved 28 May 2017 – via National Library of Australia.
- ^ Symonds 1985, pp. 314–315.
- ^ a b c Arnold & Smith 2006, p. 112.
- ^ Arnold & Smith 2006, pp. 111–112.
- ^ Sainsbury, A. B. (25 February 1999). "Obituary: Vice-Admiral Sir Hugh Martell". The Independent. Archived from the original on 24 May 2022. Retrieved 5 August 2018.
- ^ Symonds 1985, p. 314.
- ^ Arnold & Smith 2006, p. 113.
- ^ a b c d e Arnold & Smith 2006, pp. 115–117.
- ^ McClelland 1985a, p. 262.
- ^ Djokovic 2016, pp. 2–3.
- ^ a b c Symonds 1985, pp. 323–329.
- ^ a b c d e Arnold & Smith 2006, p. 121.
- ^ Kainikara & Burns 2016, pp. 145–148.
- ^ a b Symonds 1985, pp. 333–335.
- ^ "WA Govt to discuss demand for A-test ban". Tribune. No. 946. New South Wales, Australia. 9 May 1956. p. 3. Retrieved 8 August 2018 – via National Library of Australia.
- ^ a b Arnold & Smith 2006, pp. 122–124.
- ^ McClelland 1985b, pp. 481–482.
- ^ McClelland 1985b, pp. 482–483.
- ^ a b c "Britain's Nuclear Weapons - British Nuclear Testing". Nuclear Weapons Archive. Retrieved 4 August 2018.
- ^ McClelland 1985a, pp. 264–266.
- ^ a b Arnold & Smith 2006, pp. 124–125.
- ^ McClelland 1985a, pp. 245–246.
- ^ Symonds 1985, pp. 337–342.
- ^ a b c Arnold & Smith 2006, pp. 125–126.
- ^ Symonds 1985, p. 319.
- ^ McClelland 1985a, p. 246.
- ^ "No Risks In A Bomb Test". The Canberra Times. Vol. 30, no. 8, 858. Australian Capital Territory, Australia. 28 May 1956. p. 1. Retrieved 9 August 2018 – via National Library of Australia.
- ^ Symonds 1985, pp. 351–352.
- ^ Symonds 1985, pp. 346–351.
- ^ a b Leonard 2014, pp. 210–212.
- ^ Leonard 2014, p. 218.
- ^ McClelland 1985a, pp. 266–267.
- ^ McClelland 1985a, p. 253.
- ^ a b Symonds 1985, pp. 351–355.
- ^ "Inquiry on Atomic Cloud Ordered". The Canberra Times. Vol. 30, no. 8, 891. Australian Capital Territory, Australia. 22 June 1956. p. 1. Retrieved 9 August 2018 – via National Library of Australia.
- ^ Symonds 1985, pp. 356–357.
- ^ Arnold & Smith 2006, pp. 133–137.
- ^ Cherry, Sorenson & Phelps 2012, pp. 427–428.
- ^ Cooper, Lokan & Williams 1983, p. 6.
- ^ a b c "Montebello Islands". Department of Parks and Wildlife. Retrieved 25 February 2017.
- ^ Maryan & Bush 2007, pp. 247–251.
- ^ "One man's island". Sydney Morning Herald. 22 September 2012. Retrieved 2 July 2017.
References
edit- Arnold, Lorna; Smith, Mark (2006). Britain, Australia and the Bomb: The Nuclear Tests and Their Aftermath. Basingstoke: Palgrave Macmillan. ISBN 978-1-4039-2102-4. OCLC 70673342.
- Baylis, John (1995). Ambiguity and Deterrence: British Nuclear Strategy 1945–1964. Oxford: Clarendon Press. ISBN 978-0-19-828012-5. OCLC 32700008.
- Boyes, John (2015). Thor Ballistic Missile: The United States and the United Kingdom in Partnership. Stroud: Fonthill. ISBN 978-1-78155-481-4. OCLC 921523156.
- Cathcart, Brian (1995). Test of Greatness: Britain's Struggle for the Atom Bomb. London: John Murray. ISBN 978-0-7195-5225-0. OCLC 31241690.
- Cherry, Simon R.; Sorenson, James A.; Phelps, Michael E. (2012). Physics in Nuclear Medicine (fourth ed.). Philadelphia: Elsevier/Saunders. doi:10.1016/B978-1-4160-5198-5.00023-X. ISBN 978-1-4160-5198-5. OCLC 727303207.
- Cooper, Malcolm B.; Lokan, Keith H.; Williams, Geoffrey A. (1 November 1983). The Radiological Status of the Monte Bello Islands: May 1983 (PDF) (Technical report). Yallambie, Victoria: Australian Radiation Laboratory. Archived from the original (PDF) on 26 March 2016. Retrieved 18 December 2013.
- Djokovic, Petar (2016). "Operations Hurricane and Mosaic" (PDF). Semaphore (2). OCLC 223432572. Retrieved 20 February 2017.
- Gowing, Margaret (1964). Britain and Atomic Energy 1939–1945. London: Macmillan. OCLC 3195209.
- Gowing, Margaret; Arnold, Lorna (1974a). Independence and Deterrence: Britain and Atomic Energy, 1945–1952, Volume 1, Policy Making. London: Macmillan. ISBN 978-0-333-15781-7. OCLC 611555258.
- Gowing, Margaret; Arnold, Lorna (1974b). Independence and Deterrence: Britain and Atomic Energy, 1945–1952, Volume 2, Policy and Execution. London: Palgrave Macmillan. ISBN 978-0-333-16695-6. OCLC 946341039.
- Jones, Matthew (2017). Volume I: From the V-Bomber Era to the Arrival of Polaris, 1945–1964. The Official History of the UK Strategic Nuclear Deterrent. Milton Park, Abingdon, Oxfordshire: Routledge. ISBN 978-1-138-67493-6. OCLC 1005663721.
- Kainikara, Sanu; Burns, David, eds. (2016). "RAAF Involvement in Nuclear Testing" (PDF). Pathfinder. 7 (232). Air Power Development Centre: 145–148. ISSN 1836-7712. Retrieved 5 April 2020.
- Leonard, Zeb (22 May 2014). "Tampering with History: Varied Understanding of Operation Mosaic". Journal of Australian Studies. 38 (2): 205–219. doi:10.1080/14443058.2014.895956. ISSN 1444-3058. S2CID 144611309.
- Maryan, Brad; Bush, Brian (28 February 2007). "Rediscovery of Aprasia rostrata on the Montebello Islands". The Western Australian Naturalist. 25 (4): 247–251. ISSN 0508-4865. Retrieved 20 February 2017.
- McClelland, James (1985a). The Report of the Royal Commission into British Nuclear Tests in Australia, Volume 1 (PDF) (Report). Canberra: Australian Government Publishing Service. ISBN 978-0-644-04435-6. OCLC 60240750. Archived from the original (PDF) on 31 March 2019. Retrieved 8 August 2018.
- McClelland, James (1985b). The Report of the Royal Commission into British Nuclear Tests in Australia, Volume 2 (PDF) (Report). Canberra: Australian Government Publishing Service. ISBN 978-0-644-04436-3. OCLC 60240751. Archived from the original (PDF) on 31 March 2019. Retrieved 8 August 2018.
- Naval Intelligence Division (June 1956). Australia Station Intelligence Summary (PDF) (Report). Royal Australian Navy. Retrieved 7 August 2018.
- Paul, Septimus H. (2000). Nuclear Rivals: Anglo-American Atomic Relations, 1941–1952. Columbus, Ohio: Ohio State University Press. ISBN 978-0-8142-0852-6. OCLC 43615254.
- Symonds, J. L. (1985). A History of British Atomic Tests in Australia. Canberra: Australian Government Publishing Service. ISBN 978-0-644-04118-8. OCLC 18084438.