Your search keyword '"Stephan, Andrew"' showing total 241 results

1. When are concurrent quarterly reports useful for investors? Evidence from ASC 606

Author

Glaze, Jesse L., Skinner, A. Nicole, and Stephan, Andrew

Published

2024

2. Automated Routing of Droplets for DNA Storage on a Digital Microfluidics Platform

Author

Manicka, Ajay, Stephan, Andrew, Chari, Sriram, Mendonsa, Gemma, Okubo, Peyton, Stolzberg-Schray, John, Reddy, Anil, and Riedel, Marc

Subjects

Computer Science - Emerging Technologies

Abstract

Technologies for sequencing (reading) and synthesizing (writing) DNA have progressed on a Moore's law-like trajectory over the last three decades. This has motivated the idea of using DNA for data storage. Theoretically, DNA-based storage systems could out-compete all existing forms of archival storage. However, a large gap exists between what is theoretically possible in terms of read and write speeds and what has been practically demonstrated with DNA. This paper introduces a novel approach to DNA storage, with automated assembly on a digital microfluidic biochip. This technology offers unprecedented parallelism in DNA assembly using a dual library of "symbols" and "linkers". An algorithmic solution is discussed for the problem of managing droplet traffic on the device, with prioritized three-dimensional "A*" routing. An overview is given of the software that was developed for routing a large number of droplets in parallel on the device, minimizing congestion and maximizing throughput., Comment: 15 pages, 23 figures. Submitted to the journal "Lab on a Chip" for publication by the Royal Society of Chemistry

Published

2022

3. Neutral Composition Information in ICON EUV Dayglow Observations

Author

Tuminello, Richard M, England, Scott L, Sirk, Martin M, Meier, RR, Stephan, Andrew W, Korpela, Eric J, Immel, Thomas J, Mende, Stephen B, and Frey, Harald U

Subjects

Earth Sciences, Atmospheric Sciences, Physical Sciences, remote sensing, EUV, airglow, ICON, thermosphere, dayglow, Astronomical and Space Sciences, Geophysics, Astronomical sciences, Space sciences

Abstract

Since the earliest space-based observations of Earth's atmosphere, ultraviolet (UV) airglow has proven a useful resource for remote sensing of the ionosphere and thermosphere. The NASA Ionospheric Connection Explorer (ICON) spacecraft, whose mission is to explore the connections between ionosphere and thermosphere utilizes UV airglow in the typical way: an extreme-UV (EUV) spectrometer uses dayglow between 54 and 88 nm to measure the density of O+, and a far-UV spectrograph uses the O 135.6 nm doublet and N2 Lyman-Birge-Hopfield band dayglow to measure the column ratio of O to N2 in the upper thermosphere. Two EUV emission features, O+ 61.6 and 83.4 nm, are used for the O+ retrieval; however, many other features are captured along the EUV instrument's spectral dimension. In this study, we examine the other dayglow features observed by ICON EUV and demonstrate that it measures a nitrogen feature around 87.8 nm which can be used to observe the neutral thermosphere.

Published

2022

4. First Results From the Retrieved Column O/N2 Ratio From the Ionospheric Connection Explorer (ICON): Evidence of the Impacts of Nonmigrating Tides

Author

England, Scott L, Meier, RR, Frey, Harald U, Mende, Stephen B, Stephan, Andrew W, Krier, Christopher S, Cullens, Chihoko Y, Wu, Yen‐Jung J, Triplett, Colin C, Sirk, Martin M, Korpela, Eric J, Harding, Brian J, Englert, Christoph R, and Immel, Thomas J

Subjects

Earth Sciences, Atmospheric Sciences, thermosphere, atmospheric composition, atmospheric tides, airglow, Astronomical and Space Sciences, Geophysics, Astronomical sciences, Space sciences

Abstract

In near-Earth space, variations in thermospheric composition have important implications for thermosphere-ionosphere coupling. The ratio of O to N2 is often measured using far-UV airglow observations. Taking such airglow observations from space, looking below the Earth's limb allows for the total column of O and N2 in the ionosphere to be determined. While these observations have enabled many previous studies, determining the impact of non-migrating tides on thermospheric composition has proved difficult, owing to a small contamination of the signal by recombination of ionospheric O+. New ICON observations of far UV are presented here, and their general characteristics are shown. Using these, along with other observations and a global circulation model we show that during the morning hours and at latitudes away from the peak of the equatorial ionospheric anomaly, the impact of non-migrating tides on thermospheric composition can be observed. During March - April 2020, the column O/N2 ratio was seen to vary by 3 - 4 % of the zonal mean. By comparing the amplitude of the variation observed with that in the model, both the utility of these observations and a pathway to enable future studies is shown.

Published

2021

5. Supervised Learning in Temporally-Coded Spiking Neural Networks with Approximate Backpropagation

Author

Stephan, Andrew, Gardner, Brian, Koester, Steven J., and Gruning, Andre

Subjects

Computer Science - Neural and Evolutionary Computing, Computer Science - Machine Learning

Abstract

In this work we propose a new supervised learning method for temporally-encoded multilayer spiking networks to perform classification. The method employs a reinforcement signal that mimics backpropagation but is far less computationally intensive. The weight update calculation at each layer requires only local data apart from this signal. We also employ a rule capable of producing specific output spike trains; by setting the target spike time equal to the actual spike time with a slight negative offset for key high-value neurons the actual spike time becomes as early as possible. In simulated MNIST handwritten digit classification, two-layer networks trained with this rule matched the performance of a comparable backpropagation based non-spiking network.

Published

2020

6. SHE-MTJ Circuits for Convolutional Neural Networks

Author

Stephan, Andrew W. and Koester, Steven J.

Subjects

Computer Science - Emerging Technologies, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

We report the performance characteristics of a notional Convolutional Neural Network based on the previously-proposed Multiply-Accumulate-Activate-Pool set, an MTJ-based spintronic circuit made to compute multiple neural functionalities in parallel. A study of image classification with the MNIST handwritten digits dataset using this network is provided via simulation. The effect of changing the weight representation precision, the severity of device process variation within the MAAP sets and the computational redundancy are provided. The emulated network achieves between 90 and 95\% image classification accuracy at a cost of ~100 nJ per image.

Published

2020

7. Spin-Hall MTJ Cells for Intra-Column Competition in Hierarchical Temporal Memory

Author

Stephan, Andrew W. and Koester, Steven J.

Subjects

Computer Science - Emerging Technologies

Abstract

We propose a dedicated winner-take-all circuit to efficiently implement the intra-column competition between cells in Hierarchical Temporal Memory which is a crucial part of the algorithm. All inputs and outputs are charge-based for compatibility with standard CMOS. The circuit incorporates memristors for competitive advantage to emulate a column with a cell in a predictive state. The circuit can also detect columns 'bursting' by passive averaging and comparison of the cell outputs. The proposed spintronic devices and circuit are thoroughly described and a series of simulations are used to predict the performance. The simulations indicate that the circuit can complete a nine-cell, nine-input competition operation in under 15 ns at a cost of about 25 pJ.

Published

2020

8. Additive manufacturing of SiCNO polymer-derived ceramics via step-growth polymerization

Author

Brinckmann, Stephan Andrew, Yao, Jia, Young, Jason Cody, Jones, Matthew Hollis, Fertig III, Ray Stuart, and Frick, Carl Pieter

Published

2023

9. Additive manufacturing of SiCNO polymer-derived ceramics via step-growth polymerization

Author

Stephan Andrew Brinckmann, Jia Yao, Jason Cody Young, Matthew Hollis Jones, Ray Stuart Fertig III, and Carl Pieter Frick

Subjects

Polymer-derived-ceramics, Ceramics, Additive manufacturing, Pyrolysis, Click-chemistry, 3D printing, Clay industries. Ceramics. Glass, TP785-869

Abstract

The 3D printing of pre-ceramic polymers that can be pyrolyzed into functional ceramics has recently become a focus for advanced ceramic applications requiring complex geometries. In this work, a new methodology for 3D printing SiCNO ceramic materials derived from a novel pre-ceramic photopolymer feedstock utilizing a thiol-ene reaction is introduced. The printed parts are pyrolyzed to amorphous SiCNO and the physical and mechanical properties of the final ceramic are measured. Pyrolysis of the pre-ceramic produced a SiCNO ceramic with 41% ceramic yield and shrinkage of 24% with a hardness measured at 6.6 GPa ± 0.3 GPa.

Published

2023

10. Nonvolatile Spintronic Memory Cells for Neural Networks

Author

Stephan, Andrew W., Lou, Qiuwen, Niemier, Michael, Hu, X. Sharon, and Koester, Steven J.

Subjects

Computer Science - Emerging Technologies, Computer Science - Neural and Evolutionary Computing

Abstract

A new spintronic nonvolatile memory cell analogous to 1T DRAM with non-destructive read is proposed. The cells can be used as neural computing units. A dual-circuit neural network architecture is proposed to leverage these devices against the complex operations involved in convolutional networks. Simulations based on HSPICE and Matlab were performed to study the performance of this architecture when classifying images as well as the effect of varying the size and stability of the nanomagnets. The spintronic cells outperform a purely charge-based implementation of the same network, consuming about 100 pJ total per image processed.

Published

2019

11. Convolutional Neural Networks Utilizing Multifunctional Spin-Hall MTJ Neurons

Author

Stephan, Andrew W. and Koester, Steven J.

Subjects

Computer Science - Emerging Technologies, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing

Abstract

We propose a new network architecture for standard spin-Hall magnetic tunnel junction-based spintronic neurons that allows them to compute multiple critical convolutional neural network functionalities simultaneously and in parallel, saving space and time. An approximation to the Rectified Linear Unit transfer function and the local pooling function are computed simultaneously with the convolution operation itself. A proof-of-concept simulation is performed on the MNIST dataset, achieving up to 98% accuracy at a cost of less than 1 nJ for all convolution, activation and pooling operations combined. The simulations are remarkably robust to thermal noise, performing well even with very small magnetic layers.

Published

2019

12. The Ionospheric Connection Explorer - Prime Mission Review

Author

Immel, Thomas J., England, Scott L., Harding, Brian J., Wu, Yen-Jung, Maute, Astrid, Cullens, Chihoko, Englert, Christoph R., Mende, Stephen B., Heelis, Roderick A., Frey, Harald U., Korpela, Eric J., Stephan, Andrew W., Frey, Sabine, Stevens, Michael H., Makela, Jonathan J., Kamalabadi, Farzad, Triplett, Colin C., Forbes, Jeffrey M., McGinness, Emma, Gasque, L. Claire, Harlander, John M., Gérard, Jean-C., Hubert, Benoit, Huba, Joseph D., Meier, Robert R., and Roberts, Bryce

Published

2023

13. In-Flight Performance of the ICON EUV Spectrograph

Author

Korpela, Eric J., Sirk, Martin M., Edelstein, Jerry, McPhate, Jason B., Tuminello, Richard M., Stephan, Andrew W., England, Scott L., and Immel, Thomas J.

Published

2023

14. Benchmarking Inverse Rashba-Edelstein Magnetoelectric Devices for Neuromorphic Computing

Author

Stephan, Andrew W., Hu, Jiaxi, and Koester, Steven J.

Subjects

Computer Science - Emerging Technologies

Abstract

We propose a new design for a cellular neural network with spintronic neurons and CMOS-based synapses. Harnessing the magnetoelectric and inverse Rashba-Edelstein effects allows natural emulation of the behavior of an ideal cellular network. This combination of effects offers an increase in speed and efficiency over other spintronic neural networks. A rigorous performance analysis via simulation is provided., Comment: 8 pages, 6 figures

Published

2018

15. Comparison of ICON-EUV F-Peak Characteristic Parameters with External Data Sources

Author

Wautelet, Gilles, Hubert, Benoît, Gérard, Jean-Claude, Immel, Thomas J., Sirk, Martin M., Korpela, Eric J., Stephan, Andrew W., Mende, Stephen B., England, Scott L., and Erickson, Philip J.

Published

2022

16. Characterization of the Daytime Ionosphere with ICON EUV Airglow Limb Profiles

Author

Stephan, Andrew W., Sirk, Martin M., Korpela, Eric J., England, Scott L., and Immel, Thomas J.

Published

2022

17. The Effect of Algorithmic Trading on Management Guidance.

Author

Stephan, Andrew

Subjects

ALGORITHMIC trading (Securities), HIGH-frequency trading (Securities), DISCLOSURE, STOCK prices, CORPORATE profits, BUSINESS forecasting

Abstract

I investigate whether algorithmic trading (AT) affects the provision of management guidance. Existing research finds that AT decreases fundamental information acquisition before earnings announcements and consequently reduces the informativeness of prices. To compensate for reduced information acquisition, I predict and find that managers at firms with more AT activity increase the quantity and quality of guidance issued at earnings announcements. Evidence is consistent with managers responding to reduced information acquisition, as opposed to changes in liquidity, and results suggest guidance in response to AT is effective at reducing information asymmetry. These findings identify a new channel through which AT affects stock price informativeness by documenting a link to managers' disclosure decisions. Data Availability: Data are available from the public sources cited in the text. JEL Classifications: G14; G19; G10. [ABSTRACT FROM AUTHOR]

Published

2024

18. Daytime O/N2 Retrieval Algorithm for the Ionospheric Connection Explorer (ICON).

Author

Stephan, Andrew W, Meier, RR, England, Scott L, Mende, Stephen B, Frey, Harald U, and Immel, Thomas J

Subjects

Composition, ICON Explorer mission, Thermosphere, Ultraviolet airglow, Astronomical and Space Sciences, Astronomy & Astrophysics

Abstract

The NASA Ionospheric Connection Explorer Far-Ultraviolet spectrometer, ICON FUV, will measure altitude profiles of the daytime far-ultraviolet (FUV) OI 135.6 nm and N2 Lyman-Birge-Hopfield (LBH) band emissions that are used to determine thermospheric density profiles and state parameters related to thermospheric composition; specifically the thermospheric column O/N2 ratio (symbolized as ΣO/N2). This paper describes the algorithm concept that has been adapted and updated from one previously applied with success to limb data from the Global Ultraviolet Imager (GUVI) on the NASA Thermosphere Ionosphere Mesosphere Energetics and Dynamics (TIMED) mission. We also describe the requirements that are imposed on the ICON FUV to measure ΣO/N2 over any 500-km sample in daytime with a precision of better than 8.7%. We present results from orbit-simulation testing that demonstrates that the ICON FUV and our thermospheric composition retrieval algorithm can meet these requirements and provide the measurements necessary to address ICON science objectives.

Published

2018

19. Evaluation of Ionospheric Densities Using Coincident OII 83.4 nm Airglow and the Millstone Hill Radar

Author

Douglas, Ewan S., Smith, Steve M., Stephan, Andrew W., Cashman, Lauren, Bishop, Rebecca L., Budzien, Scott A., Christensen, Andrew B., Hecht, James H., and Chakrabarti, Supriya

Subjects

Physics - Space Physics

Abstract

We test the utility of the OII 83.4 nm emission feature as a measure of ionospheric parameters. Observed with the Remote Atmospheric and Ionospheric Detection System (RAIDS) Extreme Ultraviolet Spectrograph on the International Space Station (ISS), limb profiles of 83.4 nm emissions are compared to predicted dayglow emission profiles from a theoretical model incorporating ground-based electron density profiles measured by the Millstone Hill radar and parameterized by a best-fit Chapman-{\alpha} function. Observations and models are compared for periods of conjunction between Millstone Hill and the RAIDS fields-of-view. These RAIDS observations show distinct differences in topside morphology between two days, 15 January and 10 March 2010, closely matching the forward model morphology and demonstrating that 83.4 nm emission is sensitive to changes in the ionospheric density profile from the 340 km altitude of the ISS during solar minimum. We find no significant difference between 83.4 nm emission profiles modeled assuming a constant scale height Chapman-{\alpha} best-fit to the ISR measurements and those assuming varying scale height.

Published

2016

20. Profiting from connections: Do politicians receive stock tips from brokerage houses?

Author

Stephan, Andrew P., Walther, Beverly R., and Wellman, Laura A.

Published

2021

21. Retrieval of Thermospheric O and N2 Densities From ICON EUV

Author

Tuminello, Richard M., primary, Stephan, Andrew W., additional, and England, Scott L., additional

Published

2024

22. A Preliminary Survey of the Eastern Harbor, Alexandria, Egypt, Including a Comparison of Side Scan Sonar and Remote Viewing

Author

Stephan Andrew Schwartz

Subjects

Speculative philosophy, BD10-701

Abstract

This paper reports a preliminary survey of one of humanity's most historic harbors--Alexandria, Egypt. It constitutes one phase of a broader joint land/sea examination of the largest and most famous city to bear Alexander the Great's name. The research overall had two goals: 1) to resolve locational uncertainties concerning the city's past configuration, particularly its Ptolemaic antecedents; and 2) to compare electronic remote sensing survey technologies with Remote Viewing generally, and the applications methodology developed by the Mobius Groups specifically. In the area of the Eastern Harbor, the aim of the research was: 1) the location of the ancient shore line; the locaton of and predictive description of several sites including the island of Antirrhodus and the Emporium/Poseidium/Timonium complex; a palace complex associated with Cleopatra; and a further elaboration, both in terms of location and predictive description, of the Pharos lighthouse area; 2) a comparison of Remote Viewing and side scan sonar data after each approach had surveyed the same area. This paper describes the probable location of the Emporium, the Poseidium, and the Timonium, the palace complex of Cleopatra, the island of Antirrhodus, a site at the tip of Fort Sisila (known prevously as Point Lochias), new discoveries pertaining to the lighthouse, andd an associated temple. The most important discovery though is the identification and location of the ancient seawall which extends some 65 meters farther out into the harbor than was previously suspected, and whoe location resolves a key piece in the puzzle of the ancient city's layout. The discoveries reported here were principally the result of Remote Viewing. Except for one clear "hit," side scan sonar proved unproductive because of the large amount of particulate in the water.

Published

2021

23. The Discovery of an American Brig: Fieldwork Involving Applied Remote Viewing Including a Comparison with Electronic Remote Sensing

Author

Stephan Andrew Schwartz

Subjects

Speculative philosophy, BD10-701

Abstract

In the fall of 1987 Mobius began fieldwork, under a license from the Bahamian Government, to carry out an archaeological survey in an area of the Grand Bahama Banks encompassing some 579.15 square miles (1500 sq. km). This report compares the Remote Viewing, electronic remote sensing, and visual search process used to locate the wreck site of a previously undiscovered armed American merchantman believed to be the Brig Leander, which was found in a sub-section of the License Area known as Consensus Zone C; an area of 11.81 sq. miles (30.59 sq. km) of water. It concludes that Remote Viewing was the source of information which led to the site’s location, and that electronic remote sensing was not useful in this instance. Leander was under the Command of Captain William Johnson when she sank for unknown reasons near Beaks Cay on 6 April 1834, while returning from Manzanilla, Cuba to her homeport in Boston, Massachusetts. In addition to location information, a total of 193 conceptual descriptive concepts concerning the site were proffered by twelve Remote Viewers. Of this, 148 concepts, or 75% of the total, could be evaluated through direct field observations, or historical research. An evaluation of this material reveals 84% Correct, 12% Partially Correct, 4% Incorrect. There is little accuracy variation across the sequence of material from the Los Angeles interviews (84% Corr., 13% Part. Co rr. ,3% Incorr.), to the on-site data (81% Corr., 11% Part. Corr., 8% Incorr.). Approximately 300 notable wrecks went down, not just in the License Area but across the entire Banks, from 1500 to 1876 as determined by a thorough search of historical records and archival material in the U.S., the U.K., Spain and the Bahamas. To make a conservative assessment of this location occurring by chance, assume the wrecks are evenly distributed not throughout the Banks, but only within the License Area. That said, we should expect to see 6.12 boats in Consensus Zone C (11.81/579.15 x 300 =6.12). The brig site is 5000 square feet (464.5 sq. m), equaling 0.00018 of a square mile. Within Consensus Zone C 65,849 sites of this size could be placed, thus yielding a grid of 65,849 cells.. If the probability of selecting this particular cell in the grid by chance exceeds p≥ 0.05 then Remote Viewing can be considered a determinative factor. The probability of finding this one 5,000 square feet area is then 6.12/65,849 = p 0.00009, which strongly suggests that chance is not an explanation for the location of Leander. History: “The Discovery of an American Brig: Fieldwork Involving Applied Archaeological Remote Viewing,” Parapsychological Association Conference 1988. Also, The Discovery of an American Brig: Fieldwork Involving Applied Archaeological Remote Viewing, Including a Comparison with Electronic Remote Sensing,” Conference on Underwater Archaeology/Society of Historic Archaeology Annual Meetings. 1989.

Published

2020

24. A Constellation of Compact EUV/FUV Spectroscopic Imagers for Global Ionosphere-Thermosphere Specification

Author

Stephan, Andrew, primary, Dymond, Kenneth, additional, Fritz, Bruce, additional, Budzien, Scott, additional, Kuhl, David, additional, and Nicholas, Andrew, additional

Published

2023

25. Retrieval of Thermospheric O and N2 Densities From ICON EUV.

Author

Tuminello, Richard M., Stephan, Andrew W., and England, Scott L.

Subjects

UPPER atmosphere, OXYGEN, NITROGEN, AURORAS, THERMOSPHERE, LATITUDE, ORBITS of artificial satellites

Abstract

As activity in Earth orbit continues to grow, it is important to characterize the environment of near‐Earth space. One means of remotely sensing lower thermospheric neutrals is by measurement of O and N2 density through the observation of far‐ultraviolet (FUV) airglow of atomic oxygen at 135.6 nm and the N2 Lyman‐Birge‐Hopfield (LBH) bands (~130–180 nm), as has been done on the Ionospheric Connection Explorer (ICON), Global‐scale Observations of the Limb and Disk (GOLD), and Thermosphere Ionosphere Mesosphere Energetics and Dynamics (TIMED) missions. This technique is not without limitations, however, as the FUV measurements suffer from contamination by ionospheric emissions at low latitudes and auroral emissions excited by precipitating energetic electrons and protons at high latitudes. Previous work has shown the potential for making measurements of O and N2 density in the lower‐middle thermosphere using observations of extreme‐ultraviolet (EUV) airglow. This measurement approach has a potential advantage in that it does not have an inherent ionospheric emission that must be accounted for. Additionally, these emissions are primarily excited directly by solar UV rather than electron impact and thus have the potential to enable expansion of neutral density observations into the auroral zone and polar cap where the FUV measurement cannot be applied. This article demonstrates a new approach and algorithm designed to retrieve thermospheric O and N2 density from 150 to 400 km using measurements from the ICON EUV instrument. The retrieval results throughout 2020 are summarized and compared to measurements from ICON FUV, GOLD, and SWARM. Plain Language Summary: The region of space where most satellites orbit is almost empty ‐ but not completely empty. The small amount of nitrogen and oxygen gas present can cause satellites to gradually fall out of orbit through drag. A failure to understand and evaluate changes in the density of the upper atmosphere led to the loss of 38 Starlink satellites in February 2022, for example, This is one reason that it is important to understand how much gas is in near‐Earth space and how the amount changes over time, but orbit decay due to drag makes it difficult to make direct measurements. One common solution is to measure the amount of gas from afar, taking advantage of the fact that these gases emit small amounts of light in the far‐UV spectrum. There are some limitations to this approach, one of which being that charged particles in the same region can create an extra and unrelated signal, which requires correction. This paper presents a novel approach which uses more energetic extreme‐UV light as an alternative to the far‐UV. We show the results of this new algorithm and demonstrate that the measurements line up well with those from other instruments and spacecraft. Key Points: We present an algorithm concept for remote sensing thermospheric O and N2, novel in its use of EUV airglow measurementsComparison to related measurements during conjunctions with ICON FUV, GOLD, and Swarm are favorableRetrieval results from 2020 indicate cooler atmospheres than those predicted by MSIS [ABSTRACT FROM AUTHOR]

Published

2024

26. Characterization of Longitudinal Patterns in the Daytime Ionosphere with ICON EUV Airglow

Author

Stephan, Andrew W., England, Scott L., Sirk, Martin M., Korpela, Eric J., Immel, Thomas J., and Groves, Keith

Subjects

Optical Remote Sensing

Abstract

The NASA Ionospheric Connection Explorer Extreme Ultraviolet spectrograph, ICON EUV, images one-dimensional altitude profiles of the daytime EUV airglow between 54-88 nm. This spectral range contains several OII emission features derived from the photoionization of atomic oxygen by solar EUV. The primary target of the ICON EUV is the bright OII (4P – 4S) triplet emission at 83.4 nm that is used in combination with a dimmer but complementary feature (2P – 2D) at 61.7 nm that are jointly analyzed to determine the best-fit solution of ionospheric O+ density profile between 150-450 km. From this result, the daytime ionospheric F-region peak electron density and height, NmF2 and HmF2 respectively, are inferred. The low-inclination orbit allows measurements across all local times, but also has a precession rate such that low and equatorial latitudes are sampled at all times over a 48-day period. This paper presents observations of the global patterns in ionospheric HmF2 and NmF2 obtained from the first two years of ICON EUV measurements, which occurred during solar minimum conditions, specifically examining longitudinal patterns in these parameters in a fixed local time frame with respect to the persistent longitudinal wave-4 features created by waves in the lower atmosphere.

Published

2023

27. First-Year Results from a Space-based Sporadic-E Detector

Author

Fritz, Bruce A., Dymond, Kenneth F., Wagner, Ellen J., Nicholas, Andrew C., Budzien, Scott A., Stephan, Andrew W., and Groves, Keith

Subjects

optical remote sensing

Abstract

The Triple Magnesium Ionospheric Photometer (Tri-MIP) has been developed as a 1U CubeSat compatible sensor to detect a mid-ultraviolet (MUV), Mg+ doublet emission near 280 nm as a tracer of Sporadic-E (Es). The initial flight of Tri-MIP is on the Slingshot-1 spacecraft that launched into a circular orbit at an altitude of 500 km and an inclination of 45º. Paired with a 1U scanning ultraviolet mirror (SUVM) on the Slingshot-1 spacecraft, Tri-MIP provides altitude profiles of Mg+ airglow emissions through limb scans of Earth’s ionosphere along the wake direction of the orbit. Tri-MIP is especially well-suited for Es detection and may allow for the observation of faint signatures of Es that are otherwise not visible with other commonly used, remote plasma detection methods, such as ground-based ionosondes or GPS radio occultation experiments. These proceedings will focus on a summary of results from the first year of operations on orbit for the Slingshot-1 Tri-MIP.

Published

2023

28. The Variable Voltage Ion Protection Experiment (VVIPRE): Thermospheric and Ionospheric Remote Sensing from the ISS

Author

Budzien, Scott A, Dymond, Kenneth F, Fritz, Bruce A, Nicholas, Andrew C, Stephan, Andrew W, Wagner, Ellen J, and Groves, Keith

Subjects

Optical Remote Sensing

Abstract

The Variable Voltage Ion Protection Experiment (VVIPRE) is a demonstration space experiment built by the U.S. Naval Research Laboratory to show how low-cost variable voltage power supplies can protect sensitive spaceflight detectors from space plasma ion damage, extend sensor lifetimes, and deliver high-quality measurements of the Earth’s upper atmosphere. Spacecraft charging and ambient ion impingement can cause noise, detector damage, and reduced sensor lifetime on-orbit. VVIPRE variable voltage power supplies compensate for variations in spacecraft potential to reduce or eliminate this unwanted ion flow. Naturally-occurring ultraviolet airglow can then be measured to specify the atmosphere globally. VVIPRE was launched March 15, 2023 to the International Space Station (ISS). The experiment has completed commissioning, is currently collecting airglow data in its default operational mode, and ion detection and rejection tests are on-going. Ultimately, VVIPRE will demonstrate successful ion mitigation by delivering space environment remote sensing data suitable for DoD model use. VVIPRE and its companion Experiment for Characterizing the Lower Ionosphere and Prediction of Sporadic-E (ECLIPSE) form a powerful atmospheric observatory on the ISS., {"references":["Anderson, P. C. (2012). Characteristics of spacecraft charging in low Earth orbit. J. Geophys. Res., 117, A07308, doi:10.1029/2011JA016875.","Budzien, S. A., K. F. Dymond, S. E. Thonnard, A. C. Nicholas, D. M. Diez, and R. P. McCoy (2002). On-orbit characterization and performance of the HIRAAS instruments aboard ARGOS: LORAAS sensor performance. Proc. SPIE, 4485, Optical Spectroscopic Techniques, Remote Sensing, and Instrumentation for Atmospheric and Space Research IV, 349-360, doi:10.1117/12.454269","Dymond, K. F., A. C. Nicholas, S. A.Budzien, C. Coker, A. W. Stephan, and D.H. Chua (2017). The Special SensorUltraviolet Limb Imager instruments, J. Geophys. Res. Space Physics, 122, 2674–2685, doi:10.1002/2016JA022763.","Garrett, H. B. (1981). The Charging of Spacecraft Surfaces. Rev. Geophys., 19, 577–616, doi:10.1029/RG019i004p00577.","Hsu, C.-T., T. Matsuo, W. Wang, and J.-Y. Liu (2014). Effects of inferring unobserved thermospheric and ionospheric state variables by using an Ensemble Kalman Filter on global ionospheric specification and forecasting, J. Geophys. Res. Space Physics, 119, 9256–9267, doi:10.1002/2014JA020390.","Noonan, J., E. Schindhelm, J. Wm. Parker, A. Steffl, M. Davis, S. A. Stern, Z. Levin, S. Kempf, and M. Horanyi (2016). An investigation into potential causes of the anomalistic feature observed by the Rosetta Alice spectrograph around 67P/Churyumov–Gerasimenko, Acta Astronautica, 125, 3-10, doi:10.1016/j.actaastro.2016.01.021.","Stephan, A. W., S. A. Budzien, T. T. Finne, I. J. Galysh, S.C. Finn, T. A. Cook, J. F. Martel, G. Geddes, and S. Chakrabarti (2019). The Limb-Imaging Ionospheric and Thermospheric EUV Spectrograph: Design and First Results. NRL/MR/7634-19-9846, 39 pp. (Naval Research Laboratory, Washington, DC)."]}

Published

2023

29. The Location and Reconstruction of a Byzantine Structure in Marea, Egypt, Including a Comparison of Electronic Remote Sensing and Remote Viewing

Author

Stephan Andrew Schwartz

Subjects

Speculative philosophy, BD10-701

Abstract

This paper reports the location and reconstruction of a Byzantine structure in the now buried city of Marea along the shores of Lake Maryut, some 44 km southwest of Alexandria, Egypt. A Pharonic trade center that was occupied until the 16th Century, the city has been long abandoned and lies buried around what formerly was the lakeshore. This paper reports on an applied Remote Viewing experiment in which two Remote Viewers were asked to first locate Marea, and then a buried building within the city and, finally, to describe what would be found within the building site selected, with a particularly emphasis on tile and other decorative material. It also includes a comparison of Remote Viewing data with electronic remote sensing, and geographical data for the same area done independently three years earlier. The comparison is striking because while the Remote Viewers were successfully able to locate a building, including staking out its door, and corners, as well as providing a wealth of reconstructive and descriptive material about what would be found at the site, the electronic remote sensing and geographical analysis produced no suggestion whatever that there was a site at this location. For this reason, prior to discovery, much of the Remote Viewing data seemed extremely improbable, and notably contradicted the informed judgment of an archaeologist deemed by the University of Alexandria to be the leading authority on Marea. History: The Marea Probe: An Experiment in Applied Parapsychology involving the Location, Reconstruction, and Excavation of a Byzantine Structure - Marea, Egypt. Invited Paper. Annual Meetings of The American Research Center in Egypt. De Young Museum. 14 April 1980. Also presented at the annual meetings of the Parapsychology Association 1980. Proceedings of the Parapsychology Association – 1980.

Published

2019

30. Coordinated Ionospheric Reconstruction CubeSat Experiment (CIRCE), In situ and Remote Ionospheric Sensing (IRIS) suite

Author

Attrill Gemma D. R., Nicholas Andrew C., Routledge Graham, Miah Junayd A., Kataria Dhiren O., Mitchell Cathryn N., Watson Robert J., Williams James, Agathanggelou Alex, Brown Charles M., Budzien Scott A., Carman Tobias, Chaudery Rahil, Dymond Kenneth F., Finne Ted T., Fortnam Alex, Fritz Bruce, Hands Alex, Marquis Peter J., Murphy Sean, Pinto-Jayawardena Talini, Rust Duncan, Ryden Keith A., Schofield Dave, Stephan Andrew W., Wiggins Kevin, and Underwood Craig

Subjects

ionosphere, space weather, cube-satellite, Meteorology. Climatology, QC851-999

Abstract

The UK’s Defence Science and Technology Laboratory (Dstl) is partnering with the US Naval Research Laboratory (NRL) on a joint mission to launch miniature sensors that will advance space weather measurement and modelling capabilities. The Coordinated Ionospheric Reconstruction Cubesat Experiment (CIRCE) comprises two 6U cube-satellites that will be launched into a near-polar low earth orbit (LEO), targeting 500 km altitude, in 2021. The UK contribution to CIRCE is the In situ and Remote Ionospheric Sensing (IRIS) suite, complementary to NRL sensors, and comprising three highly miniaturised payloads provided to Dstl by University College London (UCL), University of Bath, and University of Surrey/Surrey Satellite Technology Ltd (SSTL). One IRIS suite will be flown on each satellite, and incorporates an ion/neutral mass spectrometer, a tri-band global positioning system (GPS) receiver for ionospheric remote sensing, and a radiation environment monitor. From the US, NRL have provided two 1U Triple Tiny Ionospheric Photometers (Tri-TIPs) on each satellite (Nicholas et al., 2019), observing the ultraviolet 135.6 nm emission of atomic oxygen at night-time to characterize the two-dimensional distribution of electrons.

Published

2021

31. New O Partial Photoionization Cross Sections Resolve Ionospheric EUV Remote Sensing Issues.

Author

Meier, R. R., Soto, Emmaris, Evans, J. Scott, Stephan, Andrew W., and Tashiro, Motomichi

Subjects

PHOTOIONIZATION cross sections, REMOTE sensing, PHOTOIONIZATION, ELECTRON density

Abstract

The ionospheric O+ number density can be measured remotely during the day by observing its optically thick 83.4 nm radiance. Some ambiguity is present in the process of retrieving the density due to uncertainties in the initial excitation rate. This can be removed by observing a companion optically thin emission at 61.7 nm originating from the O+(3s 2P) state, providing that the ratio of the initial excitation rates is known. Analyses of ICON EUV data using an 83.4/61.7 emission ratio of order 10 result in O+ densities lower by ∼2 than other measurements. Key to relating the two emissions is accurate knowledge of the partial photoionization cross sections and the spectroscopy of O+—the topic of this paper. Up to now, no independent evaluation of the ratio of the 83.4/61.6 emission ratio exists. The recent availability of state‐of‐the‐art calculations of O partial photoionization cross sections into a variety of O+ states presents an opportunity to evaluate the O+(2p44P)/O+(3s 2P) ionization rate ratio. We calculate excitation of these parent states of the emissions including both direct and cascade excitation from higher lying O+ energy states. The resulting theoretical prediction gives ratios that range from 13.5 to 12 from solar minimum to maximum, larger than the value of 10 used by the ICON 83.4 and 61.7 nm algorithm. The higher theoretical values for the ratio reconcile the ∼2 discrepancy between simultaneous ICON and other electron density measurements. Key Points: OII 83.4 and 61.7 nm emission rates are being used for remote sensing of O+ in the daytime ionosphereNew O partial photoionization cross sections predict higher than currently used values for the 83.4/61.7 nm volume emission rate ratioThe higher theoretical values of the 83.4/61.7 nm ratio reconcile discrepancies between ICON and other simultaneous observations [ABSTRACT FROM AUTHOR]

Published

2023

32. When are concurrent quarterly reports useful for investors? Evidence from ASC 606

Author

Glaze, Jesse L., primary, Skinner, A. Nicole, additional, and Stephan, Andrew, additional

Published

2023

33. First-year Results from a Space-based Sporadic E Detector

Author

Fritz, Bruce, primary, Dymond, Kenneth, additional, Nicholas, Andrew, additional, Budzien, Scott, additional, and Stephan, Andrew, additional

Published

2023

34. Automated Routing of Droplets for DNA Storage on a Digital Microfluidics Platform

Author

Manicka, Ajay, primary, Stephan, Andrew, additional, Chari, Sriram, additional, Mendonsa, Gemma, additional, Okubo, Peyton, additional, Stolzberg-Schray, John, additional, Riedel, Marc, additional, and Reddy, Anil, additional

Published

2023

35. Daytime Ionosphere Retrieval Algorithm for the Ionospheric Connection Explorer (ICON)

Author

Stephan, Andrew W., Korpela, Eric J., Sirk, Martin M., England, Scott L., and Immel, Thomas J.

Published

2017

36. Design and Performance of the ICON EUV Spectrograph

Author

Sirk, Martin M., Korpela, Eric J., Ishikawa, Yuzo, Edelstein, Jerry, Wishnow, Edward H., Smith, Christopher, McCauley, Jeremy, McPhate, Jason B., Curtis, James, Curtis, Travis, Gibson, Steven R., Jelinsky, Sharon, Lynn, Jeffrey A., Marckwordt, Mario, Miller, Nathan, Raffanti, Michael, Van Shourt, William, Stephan, Andrew W., and Immel, Thomas J.

Published

2017

37. The Effect of Investor Inattention on non-GAAP Disclosure

Author

Basu, Riddha, primary, Pierce, Spencer R., additional, and Stephan, Andrew, additional

Published

2022

38. Optical evaluation of the Tiny Remote-sensing Instrument for Thermospheric Oxygen and Nitrogen (TRITON) CubeSat payload

Author

Babu, Sachidananda R., Pagano, Thomas S., Puschell, Jeffery J., Fritz, Bruce A., Dymond, Kenneth F., Brown, Charles M., Wolf, Josh M., Finne, Theodore T., Kooi, Vanessa M., Nicholas, Andrew C., Budzien, Scott A., Stephan, Andrew W., and Wolfram, Kenneth D.

Published

2023

39. Neutral Composition Information in ICON EUV Dayglow Observations

Author

Tuminello, Richard Michael, primary, England, Scott L, additional, Sirk, Martin M, additional, Meier, Robert R., additional, Stephan, Andrew W., additional, Korpela, Eric J, additional, Immel, Thomas, additional, Mende, Stephen B, additional, and Frey, Harald U., additional

Published

2022

40. Comparison of ICON-EUV F-Peak Characteristic Parameters with External Data Sources

Author

Haystack Observatory, Wautelet, Gilles, Hubert, Benoît, Gérard, Jean-Claude, Immel, Thomas J., Sirk, Martin M., Korpela, Eric J., Stephan, Andrew W., Mende, Stephen B., England, Scott L., Erickson, Philip J., Haystack Observatory, Wautelet, Gilles, Hubert, Benoît, Gérard, Jean-Claude, Immel, Thomas J., Sirk, Martin M., Korpela, Eric J., Stephan, Andrew W., Mende, Stephen B., England, Scott L., and Erickson, Philip J.

Abstract

We provide the first comparison of the ICON-EUV O+ density profile with radio wave datasets coming from GNSS radio-occultation, ionosondes and incoherent scatter radar. The peak density and height deduced from those different observation techniques are compared. It is found that the EUV-deduced peak density is smaller than that from other techniques by 50 to 60%, while the altitude of the peak is retrieved with a slight bias of 10 to 20 km on average. These average values are found to vary between November 2019 and March 2021. Magnetic latitude and local time are not factors significantly influencing this variability. In contrast, the EUV density is closer to that deduced from radio-wave techniques in the mid latitude region, i.e. where the ionospheric crests do not play a role. The persistent very low solar activity conditions prevailing during the studied time interval challenge the EUV O+ density profile retrieval technique. These values are consistent, both in magnitude and direction, with a systematic error on the order of 10% in the data or the forward model, or a combination of both. Ultimately, the EUV instrument on-board ICON provides the only known technique capable of precisely monitoring the ionospheric peak properties at daytime from a single space platform, on a global scale and at high cadence. This feature paves the way to transpose the technology to the study of the ionosphere surrounding other planets.

Published

2022

41. Topside Plasma Flows in the Equatorial Ionosphere and their Relationships to F-Region Winds near 250 km

Author

Heelis, Roderick A., primary, Chen, Yun-Ju, additional, Depew, Matthew, additional, Harding, Brian J, additional, Immel, Thomas J., additional, Mende, Stephen B, additional, Wu, Yen-Jung Joanne, additional, Huba, Joseph, additional, Englert, Christoph R, additional, Stephan, Andrew W., additional, Kamaci, U., additional, and Kamalabadi, Farzad, additional

Published

2022

42. News at the Bell and a Level Playing Field

Author

Hu, Danqi, primary and Stephan, Andrew, additional

Published

2022

43. P-ONE second pathfinder mission: STRAW-b

Author

Immacolata Carmen Rea, Kilian Holzapfel, Andrew Baron, Nicolai Bailly, Jeannette Bedard, Michael Bohmer, Jeff Bosma, Dirk Brussow, Jonathan Cheng, Ken Clark, Beckey Croteau, Matthias Danninger, Nathan Deis, Matthew Ens, Rowan Fox, Christian Fruck, Andreas Gartner, Roman Gernhäuser, Darren Grant, Helen He, Felix Henningsen, Ryan Hotte, Reyna Jenkyns, Hamish Johnson, Akanksha Katil, Claudio Kopper, Carsten Krauss, Ian Kulin, Klaus Leismüller, Sally Leys, Tony T.Y. Lin, Paul Macoun, Thomas McElroy, Stephan Andrew Meighen-Berger, Jan Michel, Roger Moore, Mike Morley, Laszlo Papp, Benoit Pirenne, Tom Qiu, Mark Rankin, Elisa Resconi, Adrian Round, Albert Ruskey, Ryan Rutley, Christian Spannfellner, Jakub Stacho, Ross Timmerman, Meghan Tomlin, Matt Tradewell, Michael Traxler, Matt Uganecz, Seann Wagner, Yinsong Zheng, Juan Pablo Yanez, and Fabio De Leo

Subjects

Pathfinder, Agronomy, Straw, Mathematics

Published

2021

44. A Preliminary Survey of the Eastern Harbor, Alexandria, Egypt, Including a Comparison of Side Scan Sonar and Remote Viewing

Author

Schwartz, Stephan Andrew, primary

Published

2021

45. First Results From the Retrieved Column O/N 2 Ratio From the Ionospheric Connection Explorer (ICON): Evidence of the Impacts of Nonmigrating Tides

Author

England, Scott L., primary, Meier, R. R., additional, Frey, Harald U., additional, Mende, Stephen B., additional, Stephan, Andrew W., additional, Krier, Christopher S., additional, Cullens, Chihoko Y., additional, Wu, Yen‐Jung J., additional, Triplett, Colin C., additional, Sirk, Martin M., additional, Korpela, Eric J., additional, Harding, Brian J., additional, Englert, Christoph R., additional, and Immel, Thomas J., additional

Published

2021

46. Simulation study for the future IceCube-Gen2 surface array

Author

Leszczynska, Agnieszka, primary, Abbasi, Rasha, additional, Ackermann, Markus, additional, Adams, Jenni, additional, Aguilar, Juanan, additional, Ahlers, M., additional, Ahrens, Maryon, additional, Alispach, Cyril Martin, additional, Allison, Patrick, additional, Alves Junior, Antonio Augusto, additional, Amin, Najia Moureen Binte, additional, An, Rui, additional, Andeen, Karen, additional, Anderson, Tyler, additional, Anton, Gisela, additional, Arguelles, Carlos, additional, Arlen, Tim, additional, Ashida, Yosuke, additional, Axani, Spencer, additional, Bai, Xinhua, additional, Balagopal V., Aswathi, additional, Barbano, Anastasia Maria, additional, Bartos, I., additional, Barwick, S. W., additional, Bastian, Benjamin, additional, Basu, Vedant, additional, Baur, Sebastian, additional, Bay, R. C., additional, Beatty, J. J., additional, Becker, K.-H., additional, Becker Tjus, Julia, additional, Bellenghi, Chiara, additional, BenZvi, Segev, additional, Berley, D., additional, Bernardini, Elisa, additional, Besson, D. Z., additional, Binder, Gary, additional, Bindig, Daniel, additional, Bishop, Abigail, additional, Blaufuss, E., additional, Blot, Summer, additional, Boddenberg, Matthias, additional, Bohmer, Michael, additional, Bontempo, Federico, additional, Borowka, Jurgen, additional, Boser, S., additional, Botner, Olga, additional, Boettcher, Jakob, additional, Bourbeau, Etienne, additional, Bradascio, Federica, additional, Braun, J., additional, Bron, Stephanie, additional, Brostean-Kaiser, Jannes, additional, Browne, Sally-Ann, additional, Burgman, Alexander, additional, Burley, Ryan T., additional, Busse, Raffaela, additional, Campana, Michael, additional, Carnie-Bronca, Erin, additional, Cataldo, Maddalena, additional, Chen, Chujie, additional, Chirkin, Dmitry, additional, Choi, Koun, additional, Clark, Brian, additional, Clark, Kenneth, additional, Clark, Rogan, additional, Classen, Lew, additional, Coleman, Alan, additional, Collin, Gabriel, additional, Connolly, Amy, additional, Conrad, J. M., additional, Coppin, Paul, additional, Correa, Pablo, additional, Cowen, D. F., additional, Cross, R., additional, Dappen, Christian, additional, Dave, Pranav, additional, Deaconu, Cosmin, additional, DE CLERCQ, Catherine, additional, De Kockere, Simon, additional, DeLaunay, James, additional, Dembinski, Hans, additional, Deoskar, Kunal, additional, De Ridder, Sam, additional, Desai, Abhishek, additional, Desiati, Paolo, additional, de Vries, Krijn, additional, de Wasseige, Gwenhaël, additional, De With, Meike, additional, DeYoung, Tyce, additional, Dharani, Sukeerthi, additional, Diaz, Alejandro, additional, Diaz-Velez, Juan Carlos, additional, Dittmer, Markus, additional, Dujmovic, Hrvoje, additional, Dunkman, Matt, additional, DuVernois, Michael, additional, Dvorak, Emily, additional, Ehrhardt, Thomas, additional, Eller, Philipp, additional, Engel, Ralph, additional, Erpenbeck, Hannah, additional, Evans, John, additional, Evenson, P. A., additional, Fan, Kwok Lung, additional, Farrag, K, additional, Fazely, A. R., additional, Fiedlschuster, Sebastian, additional, Fienberg, Aaron, additional, Filimonov, Kirill, additional, Finley, Chad, additional, Fischer, Leander, additional, Fox, Derek B, additional, Franckowiak, Anna, additional, Friedman, Elizabeth, additional, Fritz, Alexander, additional, Furst, Philipp, additional, Gaisser, T. K., additional, Gallagher, Jay, additional, Ganster, Erik, additional, Garcia, Alfonso, additional, Garrappa, Simone, additional, Gartner, Andreas, additional, Gerhardt, L., additional, Gernhaeuser, Roman, additional, Ghadimi, Ava, additional, Giri, Pawan, additional, Glaser, Christian, additional, Glauch, Theo, additional, Glusenkamp, Thorsten, additional, Goldschmidt, A., additional, Gonzalez, Javier, additional, Goswami, Sreetama, additional, Grant, Darren, additional, Grégoire, Timothée, additional, Griswold, Spencer, additional, Gunduz, Mehmet, additional, Günther, Christoph, additional, Haack, Christian, additional, Hallgren, Allan, additional, Halliday, R., additional, Hallmann, Steffen, additional, Halve, L., additional, Halzen, F., additional, Ha Minh, Martin, additional, Hanson, Kael, additional, Hardin, John, additional, Harnisch, Alexander A., additional, Haugen, Jim, additional, Haungs, Andreas, additional, Hauser, Simon, additional, Hebecker, Dustin, additional, Heinen, Dirk, additional, Helbing, K., additional, Hendricks, Brian, additional, Henningsen, Felix, additional, Hettinger, Emma C., additional, Hickford, Stephanie, additional, Hignight, Joshua, additional, Hill, Colton, additional, Hill, G. C., additional, Hoffman, Kara, additional, Hoffmann, Benjamin, additional, Hoffmann, Ruth, additional, Hoinka, Tobias, additional, Hokanson-Fasig, Benjamin, additional, Holzapfel, Kilian, additional, Hoshina, K., additional, Huang, Feifei, additional, Huber, Matthias, additional, Huber, Thomas, additional, Huege, Tim, additional, Hughes, Kaeli Autumn, additional, Hultqvist, Klas, additional, Hunnefeld, Mirco, additional, Hussain, Raamis, additional, In, Seongjin, additional, Iovine, Nadège, additional, Ishihara, Aya, additional, Jansson, Matti, additional, Japaridze, George, additional, Jeong, Minjin, additional, Jones, Ben, additional, KALEKIN, Oleg, additional, Kang, Donghwa, additional, Kang, Woosik, additional, Kang, Xinyue, additional, Kappes, Alexander, additional, Kappesser, David, additional, Karg, Timo, additional, Karl, Martina, additional, Karle, A., additional, Katori, Teppei, additional, Katz, U., additional, Kauer, M., additional, Keivani, A., additional, Kellermann, Moritz, additional, Kelley, J. L., additional, Kheirandish, Ali, additional, Kin, Ken'ichi, additional, Kintscher, Thomas, additional, Kiryluk, Joanna, additional, Klein, Spencer, additional, Koirala, Ramesh, additional, Kolanoski, Hermann, additional, Kontrimas, Tomas, additional, Kopke, Lutz, additional, Kopper, Claudio, additional, Kopper, Sandro, additional, Koskinen, D. J., additional, Koundal, Paras, additional, Kovacevich, Michael, additional, Kowalski, Marek, additional, Kozynets, Tetiana, additional, Krauss, Carsten, additional, Kravchenko, Ilya, additional, Krebs, Ryan, additional, Kun, Emma, additional, Kurahashi, Naoko, additional, Lad, Neha Navnitkumar, additional, Lagunas Gualda, Cristina, additional, Lanfranchi, Justin, additional, Larson, M. J., additional, Lauber, Frederik Hermann, additional, Lazar, Jeffrey, additional, Lee, Jiwoong, additional, Leonard, Kayla, additional, Li, Yijia, additional, Lincetto, Massimiliano, additional, Liu, Qinrui, additional, Liubarska, Maria, additional, Lohfink, Elisa, additional, LoSecco, John, additional, Lozano Mariscal, Cristian Jesus, additional, Lu, Lu, additional, Lucarelli, Francesco, additional, Ludwig, Andrew, additional, Luszczak, William, additional, Lyu, Yang, additional, Ma, Wing Yan, additional, Madsen, James, additional, Mahn, Kendall, additional, Makino, Yuya, additional, Mancina, Sarah, additional, Mandalia, S, additional, Maris, Ioana Codrina, additional, Marka, Szabolcs, additional, Marka, Zsuzsa, additional, Maruyama, Reina H., additional, Mase, K., additional, McElroy, Thomas, additional, McNally, Frank, additional, Mead, James Vincent, additional, Meagher, K., additional, Medina, Andres, additional, Meier, Maximilian, additional, Meighen-Berger, Stephan Andrew, additional, Meyers, Zachary Samuel, additional, Micallef, Jessie, additional, Mockler, Daniela, additional, Montaruli, Teresa, additional, Moore, Roger, additional, Morse, R., additional, Moulai, Marjon, additional, Naab, Richard, additional, Nagai, Ryo, additional, Naumann, Uwe, additional, Necker, Jannis, additional, Nelles, Anna, additional, Nguyen, Le Viet, additional, Niederhausen, Hans, additional, Nisa, Mehr, additional, Nowicki, Sarah, additional, Nygren, Dave, additional, Oberla, Eric, additional, Obertacke Pollmann, Anna, additional, Oehler, Marie, additional, Olivas, A., additional, Omeliukh, Anastasiia, additional, O'Sullivan, Erin, additional, Pandya, Hershal, additional, Pankova, Daria, additional, Papp, Laszlo, additional, Park, Nahee, additional, Parker, Grant, additional, Paudel, Ek Narayan, additional, Paul, Larissa, additional, Perez de los Heros, Carlos, additional, Peters, Lilly, additional, Petersen, Troels, additional, Peterson, Josh, additional, Philippen, Saskia, additional, Pieloth, Damian, additional, Pieper, Sarah, additional, Pinfold, James, additional, Pittermann, Martin, additional, Pizzuto, A., additional, Plaisier, Ilse, additional, Plum, M., additional, Popovych, Yuiry, additional, Porcelli, Alessio, additional, Prado Rodriguez, Maria, additional, Price, P. Buford, additional, Pries, Brandom, additional, Przybylski, Gerald, additional, Pyras, Lilly, additional, Raab, Christoph, additional, Raissi, Amirreza, additional, Rameez, Mohamed, additional, Rawlins, K., additional, Rea, Immacolata Carmen, additional, Rehman, Abdul, additional, Reichherzer, Patrick, additional, Reimann, René, additional, Renzi, Giovanni, additional, Resconi, Elisa, additional, Reusch, Simeon, additional, Rhode, Wolfgang, additional, Richman, Mike, additional, Riedel, Benedikt, additional, Riegel, Michael, additional, Roberts, Ella, additional, Robertson, Sally, additional, Roellinghoff, Gerrit, additional, Rongen, Martin, additional, Rott, Carsten, additional, Ruhe, Tim, additional, Ryckbosch, Dirk, additional, Rysewyk Cantu, Devyn, additional, Safa, Ibrahim, additional, Saffer, Julian, additional, Sanchez Herrera, Sebastian, additional, Sandrock, Alexander, additional, Sandroos, Joakim, additional, Sandstrom, P., additional, Santander, Marcos, additional, Sarkar, Subir, additional, Sarkar, Sourav, additional, Satalecka, Konstancja, additional, Scharf, Maximilian Karl, additional, Schaufel, Merlin, additional, Schieler, Harald, additional, Schindler, Sebastian, additional, Schlunder, P., additional, Schmidt, Torsten, additional, Schneider, Austin, additional, Schneider, Judith, additional, Schröder, Frank G., additional, Schumacher, Lisa Johanna, additional, Schwefer, Georg, additional, Sclafani, Steve, additional, Seckel, D., additional, Seunarine, Surujhdeo, additional, Shaevitz, M. H., additional, Sharma, Ankur, additional, Shefali, Shefali, additional, Silva, Manuel, additional, Skrzypek, Barbara, additional, Smith, Daniel, additional, Smithers, Ben, additional, Snihur, Robert, additional, Soedingrekso, Jan, additional, Soldin, Dennis, additional, SOLDNER-REMBOLD, Stefan, additional, Southall, Daniel, additional, Spannfellner, Christian, additional, Spiczak, Glenn, additional, Spiering, Christian, additional, Stachurska, Juliana, additional, Stamatikos, Michael, additional, Stanev, T., additional, Stein, Robert, additional, Stettner, Joeran, additional, Steuer, A., additional, Stezelberger, T., additional, Sturwald, Timo, additional, Stuttard, Thomas, additional, Sullivan, G. W., additional, Taboada, I., additional, Taketa, Akimichi, additional, Tanaka, Hiroyuki, additional, Tenholt, Frederik, additional, Ter-Antonyan, Samvel, additional, Tilav, S., additional, Tischbein, Franziska, additional, Tollefson, Kirsten, additional, Tomankova, Lenka, additional, Tönnis, Christoph, additional, Torres, Jorge, additional, Toscano, Simona, additional, Tosi, Delia, additional, Trettin, Alexander, additional, Tselengidou, Maria, additional, Tung, Chunfai, additional, Turcati, Andrea, additional, Turcotte, Roxanne, additional, Turley, Colin, additional, Twagirayezu, Jean Pierre, additional, Ty, Bunheng, additional, Unland Elorrieta, Martin, additional, Valtonen-Mattila, Nora, additional, Vandenbroucke, Justin, additional, van Eijndhoven, Nick, additional, Vannerom, David, additional, van Santen, Jakob, additional, Veberic, Darko, additional, Verpoest, Stef, additional, Vieregg, Abigail G., additional, Vraeghe, Matthias, additional, Walck, C., additional, Watson, Timothyblake, additional, Weaver, Chris, additional, Weigel, Philip, additional, Weindl, Andreas, additional, Weinstock, Lars Steffen, additional, Weiss, Matthew, additional, Weldert, Jan, additional, Welling, Christoph, additional, Wendt, Chris, additional, Werthebach, Johannes, additional, Weyrauch, Mark, additional, Whitehorn, Nathan, additional, Wiebusch, C. H., additional, Williams, Dawn, additional, Wissel, Stephanie, additional, Wolf, Martin, additional, Woschnagg, Kurt, additional, Wrede, Gerrit, additional, Wren, Steven, additional, Wulff, Johan, additional, Xu, Xianwu, additional, Xu, Yiqian, additional, Yanez, Juan Pablo, additional, Yoshida, S., additional, Yu, Shiqi, additional, Yuan, Tianlu, additional, Zhang, Zelong, additional, and Zierke, Simon, additional

Published

2021

47. A Search for Neutrinos from Decaying Dark Matter in Galaxy Clusters and Galaxies with IceCube

Author

Jeong, Minjin, primary, Abbasi, Rasha, additional, Ackermann, Markus, additional, Adams, Jenni, additional, Aguilar, Juanan, additional, Ahlers, M., additional, Ahrens, Maryon, additional, Alispach, Cyril Martin, additional, Alves Junior, Antonio Augusto, additional, Amin, Najia Moureen Binte, additional, An, Rui, additional, Andeen, Karen, additional, Anderson, Tyler, additional, Anton, Gisela, additional, Arguelles, Carlos, additional, Ashida, Yosuke, additional, Axani, Spencer, additional, Bai, Xinhua, additional, Balagopal V., Aswathi, additional, Barbano, Anastasia Maria, additional, Barwick, S. W., additional, Bastian, Benjamin, additional, Basu, Vedant, additional, Baur, Sebastian, additional, Bay, R. C., additional, Beatty, J. J., additional, Becker, K.-H., additional, Becker Tjus, Julia, additional, Bellenghi, Chiara, additional, BenZvi, Segev, additional, Berley, D., additional, Bernardini, Elisa, additional, Besson, D. Z., additional, Binder, Gary, additional, Bindig, Daniel, additional, Blaufuss, E., additional, Blot, Summer, additional, Boddenberg, Matthias, additional, Bontempo, Federico, additional, Borowka, Jurgen, additional, Boser, S., additional, Botner, Olga, additional, Boettcher, Jakob, additional, Bourbeau, Etienne, additional, Bradascio, Federica, additional, Braun, J., additional, Bron, Stephanie, additional, Brostean-Kaiser, Jannes, additional, Browne, Sally-Ann, additional, Burgman, Alexander, additional, Burley, Ryan T., additional, Busse, Raffaela, additional, Campana, Michael, additional, Carnie-Bronca, Erin, additional, Chen, Chujie, additional, Chirkin, Dmitry, additional, Choi, Koun, additional, Clark, Brian, additional, Clark, Kenneth, additional, Classen, Lew, additional, Coleman, Alan, additional, Collin, Gabriel, additional, Conrad, J. M., additional, Coppin, Paul, additional, Correa, Pablo, additional, Cowen, D. F., additional, Cross, R., additional, Dappen, Christian, additional, Dave, Pranav, additional, DE CLERCQ, Catherine, additional, DeLaunay, James, additional, Dembinski, Hans, additional, Deoskar, Kunal, additional, De Ridder, Sam, additional, Desai, Abhishek, additional, Desiati, Paolo, additional, de Vries, Krijn, additional, de Wasseige, Gwenhaël, additional, De With, Meike, additional, DeYoung, Tyce, additional, Dharani, Sukeerthi, additional, Diaz, Alejandro, additional, Diaz-Velez, Juan Carlos, additional, Dittmer, Markus, additional, Dujmovic, Hrvoje, additional, Dunkman, Matt, additional, DuVernois, Michael, additional, Dvorak, Emily, additional, Ehrhardt, Thomas, additional, Eller, Philipp, additional, Engel, Ralph, additional, Erpenbeck, Hannah, additional, Evans, John, additional, Evenson, P. A., additional, Fan, Kwok Lung, additional, Fazely, A. R., additional, Fiedlschuster, Sebastian, additional, Fienberg, Aaron, additional, Filimonov, Kirill, additional, Finley, Chad, additional, Fischer, Leander, additional, Fox, Derek B, additional, Franckowiak, Anna, additional, Friedman, Elizabeth, additional, Fritz, Alexander, additional, Furst, Philipp, additional, Gaisser, T. K., additional, Gallagher, Jay, additional, Ganster, Erik, additional, Garcia, Alfonso, additional, Garrappa, Simone, additional, Gerhardt, L., additional, Ghadimi, Ava, additional, Glaser, Christian, additional, Glauch, Theo, additional, Glusenkamp, Thorsten, additional, Goldschmidt, A., additional, Gonzalez, Javier, additional, Goswami, Sreetama, additional, Grant, Darren, additional, Grégoire, Timothée, additional, Griswold, Spencer, additional, Gunduz, Mehmet, additional, Günther, Christoph, additional, Haack, Christian, additional, Hallgren, Allan, additional, Halliday, R., additional, Halve, L., additional, Halzen, F., additional, Ha Minh, Martin, additional, Hanson, Kael, additional, Hardin, John, additional, Harnisch, Alexander A., additional, Haungs, Andreas, additional, Hauser, Simon, additional, Hebecker, Dustin, additional, Helbing, K., additional, Henningsen, Felix, additional, Hettinger, Emma C., additional, Hickford, Stephanie, additional, Hignight, Joshua, additional, Hill, Colton, additional, Hill, G. C., additional, Hoffman, Kara, additional, Hoffmann, Ruth, additional, Hoinka, Tobias, additional, Hokanson-Fasig, Benjamin, additional, Hoshina, K., additional, Huang, Feifei, additional, Huber, Matthias, additional, Huber, Thomas, additional, Hultqvist, Klas, additional, Hunnefeld, Mirco, additional, Hussain, Raamis, additional, In, Seongjin, additional, Iovine, Nadège, additional, Ishihara, Aya, additional, Jansson, Matti, additional, Japaridze, George, additional, Jones, Ben, additional, Kang, Donghwa, additional, Kang, Woosik, additional, Kang, Xinyue, additional, Kappes, Alexander, additional, Kappesser, David, additional, Karg, Timo, additional, Karl, Martina, additional, Karle, A., additional, Katz, U., additional, Kauer, M., additional, Kellermann, Moritz, additional, Kelley, J. L., additional, Kheirandish, Ali, additional, Kin, Ken'ichi, additional, Kintscher, Thomas, additional, Kiryluk, Joanna, additional, Klein, Spencer, additional, Koirala, Ramesh, additional, Kolanoski, Hermann, additional, Kontrimas, Tomas, additional, Kopke, Lutz, additional, Kopper, Claudio, additional, Kopper, Sandro, additional, Koskinen, D. J., additional, Koundal, Paras, additional, Kovacevich, Michael, additional, Kowalski, Marek, additional, Kozynets, Tetiana, additional, Kun, Emma, additional, Neilson, Naoko Kurahashi, additional, Lad, Neha Navnitkumar, additional, Lagunas Gualda, Cristina, additional, Lanfranchi, Justin, additional, Larson, M. J., additional, Lauber, Frederik Hermann, additional, Lazar, Jeffrey, additional, Lee, Jiwoong, additional, Leonard, Kayla, additional, Leszczynska, Agnieszka, additional, Li, Yijia, additional, Lincetto, Massimiliano, additional, Liu, Qinrui, additional, Liubarska, Maria, additional, Lohfink, Elisa, additional, Lozano Mariscal, Cristian Jesus, additional, Lu, Lu, additional, Lucarelli, Francesco, additional, Ludwig, Andrew, additional, Luszczak, William, additional, Lyu, Yang, additional, Ma, Wing Yan, additional, Madsen, James, additional, Mahn, Kendall, additional, Makino, Yuya, additional, Mancina, Sarah, additional, Maris, Ioana Codrina, additional, Maruyama, Reina H., additional, Mase, K., additional, McElroy, Thomas, additional, McNally, Frank, additional, Mead, James Vincent, additional, Meagher, K., additional, Medina, Andres, additional, Meier, Maximilian, additional, Meighen-Berger, Stephan Andrew, additional, Micallef, Jessie, additional, Mockler, Daniela, additional, Montaruli, Teresa, additional, Moore, Roger, additional, Morse, R., additional, Moulai, Marjon, additional, Naab, Richard, additional, Nagai, Ryo, additional, Naumann, Uwe, additional, Necker, Jannis, additional, Nguyen, Le Viet, additional, Niederhausen, Hans, additional, Nisa, Mehr, additional, Nowicki, Sarah, additional, Nygren, Dave, additional, Obertacke Pollmann, Anna, additional, Oehler, Marie, additional, Olivas, A., additional, O'Sullivan, Erin, additional, Pandya, Hershal, additional, Pankova, Daria, additional, Park, Nahee, additional, Parker, Grant, additional, Paudel, Ek Narayan, additional, Paul, Larissa, additional, Perez de los Heros, Carlos, additional, Peters, Lilly, additional, Peterson, Josh, additional, Philippen, Saskia, additional, Pieloth, Damian, additional, Pieper, Sarah, additional, Pittermann, Martin, additional, Pizzuto, A., additional, Plum, M., additional, Popovych, Yuiry, additional, Porcelli, Alessio, additional, Prado Rodriguez, Maria, additional, Price, P. Buford, additional, Pries, Brandom, additional, Przybylski, Gerald, additional, Raab, Christoph, additional, Raissi, Amirreza, additional, Rameez, Mohamed, additional, Rawlins, K., additional, Rea, Immacolata Carmen, additional, Rehman, Abdul, additional, Reichherzer, Patrick, additional, Reimann, René, additional, Renzi, Giovanni, additional, Resconi, Elisa, additional, Reusch, Simeon, additional, Rhode, Wolfgang, additional, Richman, Mike, additional, Riedel, Benedikt, additional, Roberts, Ella, additional, Robertson, Sally, additional, Roellinghoff, Gerrit, additional, Rongen, Martin, additional, Rott, Carsten, additional, Ruhe, Tim, additional, Ryckbosch, Dirk, additional, Rysewyk Cantu, Devyn, additional, Safa, Ibrahim, additional, Saffer, Julian, additional, Sanchez Herrera, Sebastian, additional, Sandrock, Alexander, additional, Sandroos, Joakim, additional, Santander, Marcos, additional, Sarkar, Subir, additional, Sarkar, Sourav, additional, Satalecka, Konstancja, additional, Scharf, Maximilian Karl, additional, Schaufel, Merlin, additional, Schieler, Harald, additional, Schindler, Sebastian, additional, Schlunder, P., additional, Schmidt, Torsten, additional, Schneider, Austin, additional, Schneider, Judith, additional, Schröder, Frank G., additional, Schumacher, Lisa Johanna, additional, Schwefer, Georg, additional, Sclafani, Steve, additional, Seckel, D., additional, Seunarine, Surujhdeo, additional, Sharma, Ankur, additional, Shefali, S., additional, Silva, Manuel, additional, Skrzypek, Barbara, additional, Smithers, Ben, additional, Snihur, Robert, additional, Soedingrekso, Jan, additional, Soldin, Dennis, additional, Spannfellner, Christian, additional, Spiczak, Glenn, additional, Spiering, Christian, additional, Stachurska, Juliana, additional, Stamatikos, Michael, additional, Stanev, T., additional, Stein, Robert, additional, Stettner, Joeran, additional, Steuer, A., additional, Stezelberger, T., additional, Sturwald, Timo, additional, Stuttard, Thomas, additional, Sullivan, G. W., additional, Taboada, I., additional, Tenholt, Frederik, additional, Ter-Antonyan, Samvel, additional, Tilav, S., additional, Tischbein, Franziska, additional, Tollefson, Kirsten, additional, Tomankova, Lenka, additional, Tönnis, Christoph, additional, Toscano, Simona, additional, Tosi, Delia, additional, Trettin, Alexander, additional, Tselengidou, Maria, additional, Tung, Chunfai, additional, Turcati, Andrea, additional, Turcotte, Roxanne, additional, Turley, Colin, additional, Twagirayezu, Jean Pierre, additional, Ty, Bunheng, additional, Unland Elorrieta, Martin, additional, Valtonen-Mattila, Nora, additional, Vandenbroucke, Justin, additional, van Eijndhoven, Nick, additional, Vannerom, David, additional, van Santen, Jakob, additional, Verpoest, Stef, additional, Vraeghe, Matthias, additional, Walck, C., additional, Watson, Timothyblake, additional, Weaver, Chris, additional, Weigel, Philip, additional, Weindl, Andreas, additional, Weiss, Matthew, additional, Weldert, Jan, additional, Wendt, Chris, additional, Werthebach, Johannes, additional, Weyrauch, Mark, additional, Whitehorn, Nathan, additional, Wiebusch, C. H., additional, Williams, Dawn, additional, Wolf, Martin, additional, Woschnagg, Kurt, additional, Wrede, Gerrit, additional, Wulff, Johan, additional, Xu, Xianwu, additional, Xu, Yiqian, additional, Yanez, Juan Pablo, additional, Yoshida, S., additional, Yu, Shiqi, additional, Yuan, Tianlu, additional, and Zhang, Zelong, additional

Published

2021

48. Triple Magnesium Ionospheric Photometer (Tri-MIP) instrument overview

Author

Nicholas, Andrew C., primary, Dymond, Kenneth F., additional, Budzien, Scott A., additional, Stephan, Andrew W., additional, Fritz, Bruce A., additional, Brown, Charles M., additional, and Finne, Ted T., additional

Published

2021

49. Studies of a muon-based mass sensitive parameter for the IceTop surface array

Author

Kang, Donghwa, primary, Browne, Sally-Ann, additional, Haungs, Andreas, additional, Abbasi, Rasha, additional, Ackermann, Markus, additional, Adams, Jenni, additional, Aguilar, Juanan, additional, Ahlers, M., additional, Ahrens, Maryon, additional, Alispach, Cyril Martin, additional, Alves Junior, Antonio Augusto, additional, Amin, Najia Moureen Binte, additional, An, Rui, additional, Andeen, Karen, additional, Anderson, Tyler, additional, Anton, Gisela, additional, Arguelles, Carlos, additional, Ashida, Yosuke, additional, Axani, Spencer, additional, Bai, Xinhua, additional, Balagopal V., Aswathi, additional, Barbano, Anastasia Maria, additional, Barwick, S. W., additional, Bastian, Benjamin, additional, Basu, Vedant, additional, Baur, Sebastian, additional, Bay, R. C., additional, Beatty, J. J., additional, Becker, K.-H., additional, Becker Tjus, Julia, additional, Bellenghi, Chiara, additional, BenZvi, Segev, additional, Berley, D., additional, Bernardini, Elisa, additional, Besson, D. Z., additional, Binder, Gary, additional, Bindig, Daniel, additional, Blaufuss, E., additional, Blot, Summer, additional, Boddenberg, Matthias, additional, Bontempo, Federico, additional, Borowka, Jurgen, additional, Boser, S., additional, Botner, Olga, additional, Boettcher, Jakob, additional, Bourbeau, Etienne, additional, Bradascio, Federica, additional, Braun, J., additional, Bron, Stephanie, additional, Brostean-Kaiser, Jannes, additional, Burgman, Alexander, additional, Burley, Ryan T., additional, Busse, Raffaela, additional, Campana, Michael, additional, Carnie-Bronca, Erin, additional, Chen, Chujie, additional, Chirkin, Dmitry, additional, Choi, Koun, additional, Clark, Brian, additional, Clark, Kenneth, additional, Classen, Lew, additional, Coleman, Alan, additional, Collin, Gabriel, additional, Conrad, J. M., additional, Coppin, Paul, additional, Correa, Pablo, additional, Cowen, D. F., additional, Cross, R., additional, Dappen, Christian, additional, Dave, Pranav, additional, DE CLERCQ, Catherine, additional, DeLaunay, James, additional, Dembinski, Hans, additional, Deoskar, Kunal, additional, De Ridder, Sam, additional, Desai, Abhishek, additional, Desiati, Paolo, additional, de Vries, Krijn, additional, de Wasseige, Gwenhaël, additional, De With, Meike, additional, DeYoung, Tyce, additional, Dharani, Sukeerthi, additional, Diaz, Alejandro, additional, Diaz-Velez, Juan Carlos, additional, Dittmer, Markus, additional, Dujmovic, Hrvoje, additional, Dunkman, Matt, additional, DuVernois, Michael, additional, Dvorak, Emily, additional, Ehrhardt, Thomas, additional, Eller, Philipp, additional, Engel, Ralph, additional, Erpenbeck, Hannah, additional, Evans, John, additional, Evenson, P. A., additional, Fan, Kwok Lung, additional, Fazely, A. R., additional, Fiedlschuster, Sebastian, additional, Fienberg, Aaron, additional, Filimonov, Kirill, additional, Finley, Chad, additional, Fischer, Leander, additional, Fox, Derek B, additional, Franckowiak, Anna, additional, Friedman, Elizabeth, additional, Fritz, Alexander, additional, Furst, Philipp, additional, Gaisser, T. K., additional, Gallagher, Jay, additional, Ganster, Erik, additional, Garcia, Alfonso, additional, Garrappa, Simone, additional, Gerhardt, L., additional, Ghadimi, Ava, additional, Glaser, Christian, additional, Glauch, Theo, additional, Glusenkamp, Thorsten, additional, Goldschmidt, A., additional, Gonzalez, Javier, additional, Goswami, Sreetama, additional, Grant, Darren, additional, Grégoire, Timothée, additional, Griswold, Spencer, additional, Gunduz, Mehmet, additional, Günther, Christoph, additional, Haack, Christian, additional, Hallgren, Allan, additional, Halliday, R., additional, Halve, L., additional, Halzen, F., additional, Ha Minh, Martin, additional, Hanson, Kael, additional, Hardin, John, additional, Harnisch, Alexander A., additional, Hauser, Simon, additional, Hebecker, Dustin, additional, Helbing, K., additional, Henningsen, Felix, additional, Hettinger, Emma C., additional, Hickford, Stephanie, additional, Hignight, Joshua, additional, Hill, Colton, additional, Hill, G. C., additional, Hoffman, Kara, additional, Hoffmann, Ruth, additional, Hoinka, Tobias, additional, Hokanson-Fasig, Benjamin, additional, Hoshina, K., additional, Huang, Feifei, additional, Huber, Matthias, additional, Huber, Thomas, additional, Hultqvist, Klas, additional, Hunnefeld, Mirco, additional, Hussain, Raamis, additional, In, Seongjin, additional, Iovine, Nadège, additional, Ishihara, Aya, additional, Jansson, Matti, additional, Japaridze, George, additional, Jeong, Minjin, additional, Jones, Ben, additional, Kang, Woosik, additional, Kang, Xinyue, additional, Kappes, Alexander, additional, Kappesser, David, additional, Karg, Timo, additional, Karl, Martina, additional, Karle, A., additional, Katz, U., additional, Kauer, M., additional, Kellermann, Moritz, additional, Kelley, J. L., additional, Kheirandish, Ali, additional, Kin, Ken'ichi, additional, Kintscher, Thomas, additional, Kiryluk, Joanna, additional, Klein, Spencer, additional, Koirala, Ramesh, additional, Kolanoski, Hermann, additional, Kontrimas, Tomas, additional, Kopke, Lutz, additional, Kopper, Claudio, additional, Kopper, Sandro, additional, Koskinen, D. J., additional, Koundal, Paras, additional, Kovacevich, Michael, additional, Kowalski, Marek, additional, Kozynets, Tetiana, additional, Kun, Emma, additional, Kurahashi, Naoko, additional, Lad, Neha Navnitkumar, additional, Lagunas Gualda, Cristina, additional, Lanfranchi, Justin, additional, Larson, M. J., additional, Lauber, Frederik Hermann, additional, Lazar, Jeffrey, additional, Lee, Jiwoong, additional, Leonard, Kayla, additional, Leszczynska, Agnieszka, additional, Li, Yijia, additional, Lincetto, Massimiliano, additional, Liu, Qinrui, additional, Liubarska, Maria, additional, Lohfink, Elisa, additional, Lozano Mariscal, Cristian Jesus, additional, Lu, Lu, additional, Lucarelli, Francesco, additional, Ludwig, Andrew, additional, Luszczak, William, additional, Lyu, Yang, additional, Ma, Wing Yan, additional, Madsen, James, additional, Mahn, Kendall, additional, Makino, Yuya, additional, Mancina, Sarah, additional, Maris, Ioana Codrina, additional, Maruyama, Reina H., additional, Mase, K., additional, McElroy, Thomas, additional, McNally, Frank, additional, Mead, James Vincent, additional, Meagher, K., additional, Medina, Andres, additional, Meier, Maximilian, additional, Meighen-Berger, Stephan Andrew, additional, Micallef, Jessie, additional, Mockler, Daniela, additional, Montaruli, Teresa, additional, Moore, Roger, additional, Morse, R., additional, Moulai, Marjon, additional, Naab, Richard, additional, Nagai, Ryo, additional, Naumann, Uwe, additional, Necker, Jannis, additional, Nguyen, Le Viet, additional, Niederhausen, Hans, additional, Nisa, Mehr, additional, Nowicki, Sarah, additional, Nygren, Dave, additional, Obertacke Pollmann, Anna, additional, Oehler, Marie, additional, Olivas, A., additional, O'Sullivan, Erin, additional, Pandya, Hershal, additional, Pankova, Daria, additional, Park, Nahee, additional, Parker, Grant, additional, Paudel, Ek Narayan, additional, Paul, Larissa, additional, Perez de los Heros, Carlos, additional, Peters, Lilly, additional, Peterson, Josh, additional, Philippen, Saskia, additional, Pieloth, Damian, additional, Pieper, Sarah, additional, Pittermann, Martin, additional, Pizzuto, A., additional, Plum, M., additional, Popovych, Yuiry, additional, Porcelli, Alessio, additional, Prado Rodriguez, Maria, additional, Price, P. Buford, additional, Pries, Brandom, additional, Przybylski, Gerald, additional, Raab, Christoph, additional, Raissi, Amirreza, additional, Rameez, Mohamed, additional, Rawlins, K., additional, Rea, Immacolata Carmen, additional, Rehman, Abdul, additional, Reichherzer, Patrick, additional, Reimann, René, additional, Renzi, Giovanni, additional, Resconi, Elisa, additional, Reusch, Simeon, additional, Rhode, Wolfgang, additional, Richman, Mike, additional, Riedel, Benedikt, additional, Roberts, Ella, additional, Robertson, Sally, additional, Roellinghoff, Gerrit, additional, Rongen, Martin, additional, Rott, Carsten, additional, Ruhe, Tim, additional, Ryckbosch, Dirk, additional, Rysewyk Cantu, Devyn, additional, Safa, Ibrahim, additional, Saffer, Julian, additional, Sanchez Herrera, Sebastian, additional, Sandrock, Alexander, additional, Sandroos, Joakim, additional, Santander, Marcos, additional, Sarkar, Subir, additional, Sarkar, Sourav, additional, Satalecka, Konstancja, additional, Scharf, Maximilian Karl, additional, Schaufel, Merlin, additional, Schieler, Harald, additional, Schindler, Sebastian, additional, Schlunder, P., additional, Schmidt, Torsten, additional, Schneider, Austin, additional, Schneider, Judith, additional, Schröder, Frank G., additional, Schumacher, Lisa Johanna, additional, Schwefer, Georg, additional, Sclafani, Steve, additional, Seckel, D., additional, Seunarine, Surujhdeo, additional, Sharma, Ankur, additional, Shefali, Shefali, additional, Silva, Manuel, additional, Skrzypek, Barbara, additional, Smithers, Ben, additional, Snihur, Robert, additional, Soedingrekso, Jan, additional, Soldin, Dennis, additional, Spannfellner, Christian, additional, Spiczak, Glenn, additional, Spiering, Christian, additional, Stachurska, Juliana, additional, Stamatikos, Michael, additional, Stanev, T., additional, Stein, Robert, additional, Stettner, Joeran, additional, Steuer, A., additional, Stezelberger, T., additional, Sturwald, Timo, additional, Stuttard, Thomas, additional, Sullivan, G. W., additional, Taboada, I., additional, Tenholt, Frederik, additional, Ter-Antonyan, Samvel, additional, Tilav, S., additional, Tischbein, Franziska, additional, Tollefson, Kirsten, additional, Tomankova, Lenka, additional, Tönnis, Christoph, additional, Toscano, Simona, additional, Tosi, Delia, additional, Trettin, Alexander, additional, Tselengidou, Maria, additional, Tung, Chunfai, additional, Turcati, Andrea, additional, Turcotte, Roxanne, additional, Turley, Colin, additional, Twagirayezu, Jean Pierre, additional, Ty, Bunheng, additional, Unland Elorrieta, Martin, additional, Valtonen-Mattila, Nora, additional, Vandenbroucke, Justin, additional, van Eijndhoven, Nick, additional, Vannerom, David, additional, van Santen, Jakob, additional, Verpoest, Stef, additional, Vraeghe, Matthias, additional, Walck, C., additional, Watson, Timothyblake, additional, Weaver, Chris, additional, Weigel, Philip, additional, Weindl, Andreas, additional, Weiss, Matthew, additional, Weldert, Jan, additional, Wendt, Chris, additional, Werthebach, Johannes, additional, Weyrauch, Mark, additional, Whitehorn, Nathan, additional, Wiebusch, C. H., additional, Williams, Dawn, additional, Wolf, Martin, additional, Woschnagg, Kurt, additional, Wrede, Gerrit, additional, Wulff, Johan, additional, Xu, Xianwu, additional, Xu, Yiqian, additional, Yanez, Juan Pablo, additional, Yoshida, S., additional, Yu, Shiqi, additional, Yuan, Tianlu, additional, and Zhang, Zelong, additional

Published

2021

50. Characterization of the PeV astrophysical neutrino energy spectrum with IceCube using down-going tracks

Author

Lyu, Yang, primary, Abbasi, Rasha, additional, Ackermann, Markus, additional, Adams, Jenni, additional, Aguilar, Juanan, additional, Ahlers, M., additional, Ahrens, Maryon, additional, Alispach, Cyril Martin, additional, Alves Junior, Antonio Augusto, additional, Amin, Najia Moureen Binte, additional, An, Rui, additional, Andeen, Karen, additional, Anderson, Tyler, additional, Anton, Gisela, additional, Arguelles, Carlos, additional, Ashida, Yosuke, additional, Axani, Spencer, additional, Bai, Xinhua, additional, Balagopal V., Aswathi, additional, Barbano, Anastasia Maria, additional, Barwick, S. W., additional, Bastian, Benjamin, additional, Basu, Vedant, additional, Baur, Sebastian, additional, Bay, R. C., additional, Beatty, J. J., additional, Becker, K.-H., additional, Becker Tjus, Julia, additional, Bellenghi, Chiara, additional, BenZvi, Segev, additional, Berley, D., additional, Bernardini, Elisa, additional, Besson, D. Z., additional, Binder, Gary, additional, Bindig, Daniel, additional, Blaufuss, E., additional, Blot, Summer, additional, Boddenberg, Matthias, additional, Bontempo, Federico, additional, Borowka, Jurgen, additional, Boser, S., additional, Botner, Olga, additional, Boettcher, Jakob, additional, Bourbeau, Etienne, additional, Bradascio, Federica, additional, Braun, J., additional, Bron, Stephanie, additional, Brostean-Kaiser, Jannes, additional, Browne, Sally-Ann, additional, Burgman, Alexander, additional, Burley, Ryan T., additional, Busse, Raffaela, additional, Campana, Michael, additional, Carnie-Bronca, Erin, additional, Chen, Chujie, additional, Chirkin, Dmitry, additional, Choi, Koun, additional, Clark, Brian, additional, Clark, Kenneth, additional, Classen, Lew, additional, Coleman, Alan, additional, Collin, Gabriel, additional, Conrad, J. M., additional, Coppin, Paul, additional, Correa, Pablo, additional, Cowen, D. F., additional, Cross, R., additional, Dappen, Christian, additional, Dave, Pranav, additional, DE CLERCQ, Catherine, additional, DeLaunay, James, additional, Dembinski, Hans, additional, Deoskar, Kunal, additional, De Ridder, Sam, additional, Desai, Abhishek, additional, Desiati, Paolo, additional, de Vries, Krijn, additional, de Wasseige, Gwenhaël, additional, De With, Meike, additional, DeYoung, Tyce, additional, Dharani, Sukeerthi, additional, Diaz, Alejandro, additional, Diaz-Velez, Juan Carlos, additional, Dittmer, Markus, additional, Dujmovic, Hrvoje, additional, Dunkman, Matt, additional, DuVernois, Michael, additional, Dvorak, Emily, additional, Ehrhardt, Thomas, additional, Eller, Philipp, additional, Engel, Ralph, additional, Erpenbeck, Hannah, additional, Evans, John, additional, Evenson, P. A., additional, Fan, Kwok Lung, additional, Fazely, A. R., additional, Fiedlschuster, Sebastian, additional, Fienberg, Aaron, additional, Filimonov, Kirill, additional, Finley, Chad, additional, Fischer, Leander, additional, Fox, Derek B, additional, Franckowiak, Anna, additional, Friedman, Elizabeth, additional, Fritz, Alexander, additional, Furst, Philipp, additional, Gaisser, T. K., additional, Gallagher, Jay, additional, Ganster, Erik, additional, Garcia, Alfonso, additional, Garrappa, Simone, additional, Gerhardt, L., additional, Ghadimi, Ava, additional, Glaser, Christian, additional, Glauch, Theo, additional, Glusenkamp, Thorsten, additional, Goldschmidt, A., additional, Gonzalez, Javier, additional, Goswami, Sreetama, additional, Grant, Darren, additional, Grégoire, Timothée, additional, Griswold, Spencer, additional, Gunduz, Mehmet, additional, Günther, Christoph, additional, Haack, Christian, additional, Hallgren, Allan, additional, Halliday, R., additional, Halve, L., additional, Halzen, F., additional, Ha Minh, Martin, additional, Hanson, Kael, additional, Hardin, John, additional, Harnisch, Alexander A., additional, Haungs, Andreas, additional, Hauser, Simon, additional, Hebecker, Dustin, additional, Helbing, K., additional, Henningsen, Felix, additional, Hettinger, Emma C., additional, Hickford, Stephanie, additional, Hignight, Joshua, additional, Hill, Colton, additional, Hill, G. C., additional, Hoffman, Kara, additional, Hoffmann, Ruth, additional, Hoinka, Tobias, additional, Hokanson-Fasig, Benjamin, additional, Hoshina, K., additional, Huang, Feifei, additional, Huber, Matthias, additional, Huber, Thomas, additional, Hultqvist, Klas, additional, Hunnefeld, Mirco, additional, Hussain, Raamis, additional, In, Seongjin, additional, Iovine, Nadège, additional, Ishihara, Aya, additional, Jansson, Matti, additional, Japaridze, George, additional, Jeong, Minjin, additional, Jones, Ben, additional, Kang, Donghwa, additional, Kang, Woosik, additional, Kang, Xinyue, additional, Kappes, Alexander, additional, Kappesser, David, additional, Karg, Timo, additional, Karl, Martina, additional, Karle, A., additional, Katz, U., additional, Kauer, M., additional, Kellermann, Moritz, additional, Kelley, J. L., additional, Kheirandish, Ali, additional, Kin, Ken'ichi, additional, Kintscher, Thomas, additional, Kiryluk, Joanna, additional, Klein, Spencer, additional, Koirala, Ramesh, additional, Kolanoski, Hermann, additional, Kontrimas, Tomas, additional, Kopke, Lutz, additional, Kopper, Claudio, additional, Kopper, Sandro, additional, Koskinen, D. J., additional, Koundal, Paras, additional, Kovacevich, Michael, additional, Kowalski, Marek, additional, Kozynets, Tetiana, additional, Kun, Emma, additional, Kurahashi, Naoko, additional, Lad, Neha Navnitkumar, additional, Lagunas Gualda, Cristina, additional, Lanfranchi, Justin, additional, Larson, M. 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Published

2021