Richard Dixon OldhamFRS (/ˈoʊldəm/; 31 July 1858 – 15 July 1936) was a British geologist who made the first clear identification of the separate arrivals of
P-waves,
S-waves and
surface waves on
seismograms and the first clear evidence that the Earth has a central core.
In 1879 Oldham became an assistant-superintendent with the
Geological Survey of India, working in the
Himalayas. He wrote about 40 publications for the Survey on geological subjects including hot springs, the geology of the Son Valley and the structure of the Himalayas and the
Ganges plain.[2] His most famous work was in seismology. His report on the
1897 Assam earthquake went far beyond reports of previous earthquakes. It included a description of the Chedrang fault, with uplift up to 35 feet and reported accelerations of the ground that had exceeded the
Earth's gravitational acceleration. He also included accounts of earth-waves that could be seen travelling across the plain, and of waterspouts.[3][2] During the cold season following the earthquake, the Survey carried out a re-triangulation of part of the area that had been initially surveyed in 1860. They found displacements of up to 12 feet both in distances and heights, substantially larger than could be due to errors. This was one of the earliest reports of such a re-survey.[2]: 361–371
Sketch map of the Samin and Chedrang faults, showing the uplift in feet.
The Chedrang fault cutting the bed of the Chedrang River. The fault face forms the right bank of the current watercourse, and part of the former bed of the river can be seen above the fault face.
Monument to George Inglis, Chatak, showing the upper part twisted with respect to the base.
Oldham's most important contribution to seismology was the first clear identification of the separate arrivals of different groups of waves, as detected by
seismograms at distant locations. In the report of the 1897 earthquake he presented data, mainly from stations in Italy, that showed three phases. The first to arrive, the
P or Primary waves, were compression waves, which he referred to as condensational. Next came the
S or Secondary waves, with lateral movement, which he referred to as distortional. The third phase was of large undulations. The times of arrival of these phases indicated that the first two had travelled through the body of the earth, while the third were
surface waves.[3] Since these observations agreed with theory for
elastic waves, they showed that the Earth could be treated as elastic in studies of seismic waves.[2]
In subsequent papers, Oldham compared data from numerous earthquakes, with seismic observations at different distances from the epicentre. He found a discontinuity in the travel times for the S-waves at about 120° angular distance from the earthquake, suggesting refraction by a dense core with a diameter of about 0.4 that of the earth.[4][5][1][6] Oldham was not the first to suggest that the earth had a dense core, but he provided the first direct evidence of its existence and size.[7]
In 1903, Oldham resigned from the GSI due to ill-health and returned to the United Kingdom, living in
Kew and various parts of
Wales.[8]: 110 He continued to be active in the field, publishing papers on earthquakes in Guatemala and California.
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abcDavison, C. (1936). "Richard Dixon Oldham. 1858-1936". Obituary Notices of Fellows of the Royal Society. 2 (5): 111–113.
doi:
10.1098/rsbm.1936.0008.