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Callum J Shakespeare
Callum J Shakespeare
在 anu.edu.au 的电子邮件经过验证 - 首页
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引用次数
引用次数
年份
An analytical model of the response of the meridional overturning circulation to changes in wind and buoyancy forcing
CJ Shakespeare, A McC. Hogg
Journal of Physical Oceanography 42 (8), 1270-1287, 2012
622012
Spontaneous surface generation and interior amplification of internal waves in a regional-scale ocean model
CJ Shakespeare, AMC Hogg
Journal of Physical Oceanography 47 (4), 811-826, 2017
602017
The spontaneous generation of inertia–gravity waves during frontogenesis forced by large strain: Theory
CJ Shakespeare, JR Taylor
Journal of fluid mechanics 757, 817-853, 2014
492014
Interdependence of internal tide and lee wave generation at abyssal hills: Global calculations
CJ Shakespeare
Journal of Physical Oceanography 50 (3), 655-677, 2020
452020
A generalized mathematical model of geostrophic adjustment and frontogenesis: uniform potential vorticity
CJ Shakespeare, JR Taylor
Journal of fluid mechanics 736, 366-413, 2013
452013
Magnetization pinning in conducting films demonstrated using broadband ferromagnetic resonance
M Kostylev, AA Stashkevich, AO Adeyeye, C Shakespeare, N Kostylev, ...
Journal of Applied Physics 108 (10), 2010
342010
On the momentum flux of internal tides
CJ Shakespeare, AMC Hogg
Journal of Physical Oceanography 49 (4), 993-1013, 2019
332019
The viscous lee wave problem and its implications for ocean modelling
CJ Shakespeare, AMC Hogg
Ocean Modelling 113, 22-29, 2017
252017
Observed eddy–internal wave interactions in the Southern Ocean
JM Cusack, JA Brearley, ACN Garabato, DA Smeed, KL Polzin, ...
Journal of Physical Oceanography 50 (10), 3043-3062, 2020
242020
A new mechanism for mode water formation involving cabbeling and frontogenetic strain at thermohaline fronts
LN Thomas, CJ Shakespeare
Journal of Physical Oceanography 45 (9), 2444-2456, 2015
242015
The life cycle of spontaneously generated internal waves
CJ Shakespeare, AMC Hogg
Journal of Physical Oceanography 48 (2), 343-359, 2018
232018
Curved density fronts: Cyclogeostrophic adjustment and frontogenesis
CJ Shakespeare
Journal of Physical Oceanography 46 (10), 3193-3207, 2016
222016
Attribution of horizontal and vertical contributions to spurious mixing in an Arbitrary Lagrangian–Eulerian ocean model
AH Gibson, AMC Hogg, AE Kiss, CJ Shakespeare, A Adcroft
Ocean Modelling 119, 45-56, 2017
212017
A new open source implementation of Lagrangian filtering: A method to identify internal waves in high‐resolution simulations
CJ Shakespeare, AH Gibson, AMC Hogg, SD Bachman, SR Keating, ...
Journal of Advances in Modeling Earth Systems 13 (10), e2021MS002616, 2021
192021
The clear‐sky downwelling long‐wave radiation at the surface in current and future climates
CJ Shakespeare, ML Roderick
Quarterly Journal of the Royal Meteorological Society 147 (741), 4251-4268, 2021
132021
Particle‐based lagrangian filtering for locating wave‐generated thermal refugia for coral reefs
SD Bachman, CJ Shakespeare, J Kleypas, FS Castruccio, E Curchitser
Journal of Geophysical Research: Oceans 125 (7), e2020JC016106, 2020
132020
Spontaneous generation of internal waves
CJ Shakespeare
Physics Today 72 (6), 34-39, 2019
132019
Spontaneous wave generation at strongly strained density fronts
CJ Shakespeare, JR Taylor
Journal of Physical Oceanography 46 (7), 2063-2081, 2016
132016
The spontaneous generation of inertia–gravity waves during frontogenesis forced by large strain: Numerical solutions
CJ Shakespeare, JR Taylor
Journal of Fluid Mechanics 772, 508-534, 2015
132015
Dissipating and reflecting internal waves
CJ Shakespeare, BK Arbic, A McC. Hogg
Journal of Physical Oceanography 51 (8), 2517-2531, 2021
102021
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