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Lois Baker

Lois Baker

Imperial College London

H-index: 4

Europe-United Kingdom

Contact Lois Baker

About Lois Baker

Lois Baker, With an exceptional h-index of 4 and a recent h-index of 4 (since 2020), a distinguished researcher at Imperial College London, specializes in the field of Geophysical fluid dynamics, Internal waves, Ocean mixing.

His recent articles reflect a diverse array of research interests and contributions to the field:

Spatiotemporal characteristics of the near-surface turbulent cascade at the submesoscale in the Drake Passage

Boundary upwelling of Antarctic Bottom Water by topographic turbulence

The generation, propagation, and mixing of oceanic lee waves

Enhanced upwelling of Antarctic Bottom Water by topographic interaction of water mass interfaces

A generalized marginal stability criterion for shear-induced ocean interior diapycnal turbulent mixing

TAO data support the existence of large amplitude wind-driven high frequency variations in the cross-equatorial overturning circulation

A marginal stability paradigm for shear‐induced diapycnal turbulent mixing in the ocean

The impact of representations of realistic topography on parameterised oceanic lee wave energy flux

Lois Baker Information

University

Position

PhD Candidate

Citations(all)

67

Citations(since 2020)

64

Cited By

3

hIndex(all)

4

hIndex(since 2020)

4

i10Index(all)

2

i10Index(since 2020)

2

Email

University Profile Page

Google Scholar

Lois Baker Skills & Research Interests

Geophysical fluid dynamics

Internal waves

Ocean mixing

Top articles of Lois Baker

Spatiotemporal characteristics of the near-surface turbulent cascade at the submesoscale in the Drake Passage

Journal of Physical Oceanography

2024/1

Boundary upwelling of Antarctic Bottom Water by topographic turbulence

2023/10/2

The generation, propagation, and mixing of oceanic lee waves

2023

Enhanced upwelling of Antarctic Bottom Water by topographic interaction of water mass interfaces

Authorea Preprints

2022/12/14

A generalized marginal stability criterion for shear-induced ocean interior diapycnal turbulent mixing

Authorea Preprints

2022/11/30

Lois Baker
Lois Baker

H-Index: 1

TAO data support the existence of large amplitude wind-driven high frequency variations in the cross-equatorial overturning circulation

EGU General Assembly Conference Abstracts

2022/5

Lois Baker
Lois Baker

H-Index: 1

A marginal stability paradigm for shear‐induced diapycnal turbulent mixing in the ocean

Geophysical Research Letters

2022/1/28

The impact of representations of realistic topography on parameterised oceanic lee wave energy flux

Journal of Geophysical Research: Oceans

2022

TAO data support the existence of large high frequency variations in cross‐equatorial overturning circulation

Geophysical Research Letters

2022

Surface reflection of bottom generated oceanic lee waves

Journal of Fluid Mechanics

2021/8/5

IPCC special report meeting: climate change around the globe

2020/9

Elizabeth Ellison
Elizabeth Ellison

H-Index: 6

Lois Baker
Lois Baker

H-Index: 1

Amy Wilson
Amy Wilson

H-Index: 6

The evolution of superharmonics excited by internal tides in non-uniform stratification

Journal of Fluid Mechanics

2020/5

Bruce R Sutherland
Bruce R Sutherland

H-Index: 21

See List of Professors in Lois Baker University(Imperial College London)