N. T. Kurtz

6.8k citations

86 papers · 3.3k indexed · 1 hit paper · h-index 29

Atmospheric Science top 0.5%
- Arctic and Antarctic ice dynamics 63
- Cryospheric studies and observations 58
- Climate change and permafrost 48
Oceanography top 5%
Global and Planetary Change top 5%
- Atmospheric and Environmental Gas Dynamics 6
- Climate variability and models 6
Environmental Chemistry top 5%
- Methane Hydrates and Related Phenomena 6
Environmental Engineering top 5%
Nuclear and High Energy Physics
- Particle physics theoretical and experimental studies 5
- High-Energy Particle Collisions Research 4

Co-authors: S. L. Farrell R. Kwok Alek Petty M. Studinger T. Markus T. Neumann N. Galin J. G. Sonntag
Cited by: Atmospheric Science Oceanography Global and Planetary Change
Journals: Journal of Geophysical Research Atmospheres (3 papers)ACS Nano (1 paper)Remote Sensing of Environment (3 papers)
Partner nations: United States United Kingdom Germany

In The Last Decade

N. T. Kurtz

81 papers receiving 3.2k citations

Hit Papers

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Peers

Countries citing papers authored by N. T. Kurtz

Since Specialization

Citations

This map shows the geographic impact of N. T. Kurtz's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by N. T. Kurtz with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites N. T. Kurtz more than expected).

Fields of papers citing papers by N. T. Kurtz

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by N. T. Kurtz. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by N. T. Kurtz. The network helps show where N. T. Kurtz may publish in the future.

Co-authorship network

The 25 scholars most cited alongside N. T. Kurtz, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with N. T. Kurtz Line = papers co-authored together N. T. Kurtz links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Airborne Lidar to Verify ICESat‐2 Arctic Summer Sea Ice Heights and Melt Pond Depths: Calibration and Validation Campaign, Greenland 2022 Earth and Space Science ·Kutalmis Saylam,Aaron R. Averett,J. Robert Andrews,Shelby Short,N. T. Kurtz,Rachel Tilling	2025	0
2	Biomass-Based Nanoengineered Cooling Geotextile for Permafrost Thawing Prevention ACS Nano ·Wenhui Xu,Xiaojie Liu,Wei Yan,Yanpei Tian,Yiming Xu,Wenkai Zhu,Noor Mohammad,Zhenyuan Niu,Ya Liu,Pengfei Deng,Qilong Cheng,Fengyin Du,Jinlong He,Hengxue Xiang,Ying Li,Jeffrey P. Youngblood,N. T. Kurtz,Meifang Zhu,Qianlai Zhuang,Tian Li	2025	0
3	ICESat-2/ATLAS at 4 years: instrument performance and projected life Anthony J. Martino,John F. Cavanaugh,Aimée Gibbons,J. Golder,Alvaro Ivanoff,Peggy L. Jester,N. T. Kurtz,T. Neumann,A. Pingel,C. A. Swenson	2023	6
4	Turbulent Heat Flux, Downward Longwave Radiation, and Large-Scale Atmospheric Circulation Associated with Wintertime Barents–Kara Sea Extreme Sea Ice Loss Events Journal of Climate ·Cheng Zheng,Mingfang Ting,Yutian Wu,N. T. Kurtz,Clara Orbe,Patrick Alexander,Richard Seager,Marco Tedesco	2022	7
5	Assessment of ICESat‐2 Sea Ice Surface Classification with Sentinel‐2 Imagery: Implications for Freeboard and New Estimates of Lead and Floe Geometry Earth and Space Science ·Alek Petty,Marco Bagnardi,N. T. Kurtz,Rachel Tilling,Steven Fons,Thomas Armitage,Christopher Horvat,R. Kwok	2021	26
6	Sea Surface Height Anomalies of the Arctic Ocean From ICESat‐2: A First Examination and Comparisons With CryoSat‐2 Geophysical Research Letters ·Marco Bagnardi,N. T. Kurtz,Alek Petty,R. Kwok	2021	25
7	ICESat‐2 Early Mission Synopsis and Observatory Performance Earth and Space Science ·Lori A. Magruder,T. Neumann,N. T. Kurtz	2021	55
8	Refining the sea surface identification approach for determining freeboards in the ICESat-2 sea ice products The cryosphere ·R. Kwok,Alek Petty,Marco Bagnardi,N. T. Kurtz,G. F. Cunningham,Alvaro Ivanoff,Sahra Kacimi	2021	25
9	Validation activities for the Ice, Cloud, and Land Elevation Satellite - 2 (ICESat-2) Mission T. Neumann,Kelly M. Brunt,Lori Marguder,N. T. Kurtz	2020	2
10	Temporal and spatial variability in surface roughness and accumulation rate around 88° S from repeat airborne geophysical surveys The cryosphere ·M. Studinger,Brooke Medley,Kelly M. Brunt,Kimberly A. Casey,N. T. Kurtz,Serdar S. Manizade,T. Neumann,T. B. Overly	2020	6
11	Winter Arctic Sea Ice Thickness From ICESat‐2 Freeboards Journal of Geophysical Research Oceans ·Alek Petty,N. T. Kurtz,R. Kwok,T. Markus,T. Neumann	2020	71
12	Temporal and spatial variability in surface roughness and accumulation rate around 88° S from repeat airborne geophysical surveys M. Studinger,Brooke Medley,Kelly M. Brunt,Kimberly A. Casey,N. T. Kurtz,Serdar S. Manizade,T. Neumann,T. B. Overly	2020	2
13	Comparisons of Satellite and Airborne Altimetry With Ground‐Based Data From the Interior of the Antarctic Ice Sheet Geophysical Research Letters ·Kelly M. Brunt,B. E. Smith,Tyler Sutterley,N. T. Kurtz,T. Neumann	2020	43
14	ICESat‐2 Surface Height and Sea Ice Freeboard Assessed With ATM Lidar Acquisitions From Operation IceBridge Geophysical Research Letters ·R. Kwok,Sahra Kacimi,T. Markus,N. T. Kurtz,M. Studinger,J. G. Sonntag,Serdar S. Manizade,Linette Boisvert,J. P. Harbeck	2019	52
15	Surface Height and Sea Ice Freeboard of the Arctic Ocean From ICESat‐2: Characteristics and Early Results Journal of Geophysical Research Oceans ·R. Kwok,T. Markus,N. T. Kurtz,Alek Petty,T. Neumann,S. L. Farrell,G. F. Cunningham,D. W. Hancock,Alvaro Ivanoff,Jesse Wimert	2019	71
16	NASA's ICESat-2 and GEDI missions for land and vegetation applications EGU General Assembly Conference Abstracts ·Lori A. Magruder,Amy Neuenschwander,T. Neumann,N. T. Kurtz,Laura Duncanson,Ralph Dubayah	2019	2
17	Seaworthy SciComm—Lessons from the JOIDES Resolution Onboard Outreach Program AGU Fall Meeting Abstracts ·M. Garnsworthy,N. T. Kurtz	2019	1
18	Growth and Characterization of Vanadium Dioxide Thin Films for Application in Tunable Metasurfaces Bulletin of the American Physical Society ·E. Moore,N. T. Kurtz,Adam Ollanik,Brian Riggs,Matthew D. Escarra	2017	1
19	Estimating Surface Elevation Bias Due to Subsurface Scattered Photons from Visible Wavelength Laser Altimeters AGUFM ·A. Greeley,N. T. Kurtz,T. Neumann,T. Markus	2017	3
20	Satellite observations of Antarctic sea ice thickness and volume Journal of Geophysical Research Atmospheres ·N. T. Kurtz,T. Markus	2012	161

About N. T. Kurtz

N. T. Kurtz is a scholar working on Atmospheric Science, Instrumentation and Nuclear and High Energy Physics, having authored 86 papers that have together received 3.3k indexed citations. Recurring topics across this work include Arctic and Antarctic ice dynamics (63 papers), Cryospheric studies and observations (58 papers), Climate change and permafrost (48 papers), Atmospheric and Environmental Gas Dynamics (6 papers), Climate variability and models (6 papers), Methane Hydrates and Related Phenomena (6 papers), Particle physics theoretical and experimental studies (5 papers) and High-Energy Particle Collisions Research (4 papers). The work is most often cited by research in Atmospheric Science (3.0k citations), Oceanography (328 citations) and Global and Planetary Change (554 citations). N. T. Kurtz has collaborated with scholars based in United States, United Kingdom and Germany. Frequent co-authors include S. L. Farrell, R. Kwok, Alek Petty, M. Studinger, T. Markus, T. Neumann, N. Galin, J. G. Sonntag, Seymour W. Laxon and Melinda Webster. Their work appears in journals such as Journal of Geophysical Research Atmospheres, ACS Nano and Remote Sensing of Environment.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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