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329 results on '"Kangaslahti, Pekka"'

1. An Ammonia Spectral Map of the L1495-B218 Filaments in the Taurus Molecular Cloud: II CCS & HC$_7$N Chemistry and Three Modes of Star Formation in the Filaments

Author

Seo, Young Min, Majumdar, Liton, Goldsmith, Paul F., Shirley, Yancy L., Willacy, Karen, Ward-Thompson, Derek, Friesen, Rachel, Frayer, David, Church, Sarah E., Chung, Dongwoo, Cleary, Kieran, Cunningham, Nichol, Devaraj, Kiruthika, Egan, Dennis, Gaier, Todd, Gawande, Rohit, Gundersen, Joshua O., Harris, Andrew I., Kangaslahti, Pekka, Readhead, Anthony C. S., Samoska, Lorene, Sieth, Matthew, Stennes, Michael, Voll, Patricia, and White, Steve

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We present deep CCS and HC$_7$N observations of the L1495-B218 filaments in the Taurus molecular cloud obtained using the K-band focal plane array on the 100m Green Bank Telescope. We observed the L1495-B218 filaments in CCS $J_N$ = 2$_1$$-$1$_0$ and HC$_7$N $J$ = 21$-$20 with a spectral resolution of 0.038 km s$^{-1}$ and an angular resolution of 31$''$. We observed strong CCS emission in both evolved and young regions and weak emission in two evolved regions. HC$_7$N emission is observed only in L1495A-N and L1521D. We find that CCS and HC$_7$N intensity peaks do not coincide with NH$_3$ or dust continuum intensity peaks. We also find that the fractional abundance of CCS does not show a clear correlation with the dynamical evolutionary stage of dense cores. Our findings and chemical modeling indicate that the fractional abundances of CCS and HC$_7$N are sensitive to the initial gas-phase C/O ratio, and they are good tracers of young condensed gas only when the initial C/O is close to solar value. Kinematic analysis using multiple lines including NH$_3$, HC$_7$N, CCS, CO, HCN, \& HCO$^+$ suggests that there may be three different star formation modes in the L1495-B218 filaments. At the hub of the filaments, L1495A/B7N has formed a stellar cluster with large-scale inward flows (fast mode), while L1521D, a core embedded in a filament, is slowly contracting due to its self-gravity (slow mode). There is also one isolated core that appears to be marginally stable and may undergo quasi-static evolution (isolated mode)., Comment: ApJ accepted

Published
2018
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2. Vientos—A New Satellite Mission Concept for 3D Wind Measurements by Combining Passive Water Vapor Sounders with Doppler Wind Lidar

Author

Zeng, Xubin, Su, Hui, Hristova-Veleva, Svetla, Posselt, Derek J., Atlas, Robert, Brown, Shannon T., Dixon, Ross D., Fetzer, Eric, Galarneau Jr., Thomas J., Hardesty, Michael, Jiang, Jonathan H., Kangaslahti, Pekka P., Ouyed, Amir, Pagano, Thomas S., Reitebuch, Oliver, Roca, Remy, Stoffelen, Ad, Tucker, Sara, Wilson, Anna, Wu, Longtao, Yanovsky, Igor, Zeng, Xubin, Su, Hui, Hristova-Veleva, Svetla, Posselt, Derek J., Atlas, Robert, Brown, Shannon T., Dixon, Ross D., Fetzer, Eric, Galarneau Jr., Thomas J., Hardesty, Michael, Jiang, Jonathan H., Kangaslahti, Pekka P., Ouyed, Amir, Pagano, Thomas S., Reitebuch, Oliver, Roca, Remy, Stoffelen, Ad, Tucker, Sara, Wilson, Anna, Wu, Longtao, and Yanovsky, Igor

Abstract

It is challenging to accurately characterize the three-dimensional distribution of horizontal wind vectors (known as 3D winds). Feature-matching satellite cloud top or water vapor fields have been used for decades to retrieve atmospheric motion vectors, but this approach is mostly limited to a single and uncertain pressure level at a given time. Satellite wind lidar measurements are expected to provide more accurate data and capture the line-of-sight wind for clear skies, within cirrus clouds, and above thick clouds, but only along a curtain parallel to the satellite track. Here we propose Vientos—a new satellite mission concept that combines two or more passive water vapor sounders with Doppler wind lidar to measure 3D winds. The need for 3D wind observations is highlighted by inconsistencies in reanalysis estimates, particularly under precipitating conditions. Recent studies have shown that 3D winds can be retrieved using water vapor observations from two polar-orbiting satellites separated by 50 min, with the help of advanced optical flow algorithms. These winds can be improved through the incorporation of a small number of collocated higher-accuracy measurements via machine learning. The Vientos concept would enable simultaneous measurements of 3D winds, temperature, and humidity, and is expected to have a significant impact on scientific research, weather prediction, and other applications. For example, it can help better understand and predict the preconditions for organized convection. This article summarizes recent results, presents the Vientos mission architecture, and discusses implementation scenarios for a 3D wind mission under current budget constraints.

Published
2024

3. Vientos—A New Satellite Mission Concept for 3D Wind Measurements by Combining Passive Water Vapor Sounders with Doppler Wind Lidar

Author

Zeng, Xubin, primary, Su, Hui, additional, Hristova-Veleva, Svetla, additional, Posselt, Derek J., additional, Atlas, Robert, additional, Brown, Shannon T., additional, Dixon, Ross D., additional, Fetzer, Eric, additional, Galarneau, Thomas J., additional, Hardesty, Michael, additional, Jiang, Jonathan H., additional, Kangaslahti, Pekka P., additional, Ouyed, Amir, additional, Pagano, Thomas S., additional, Reitebuch, Oliver, additional, Roca, Remy, additional, Stoffelen, Ad, additional, Tucker, Sara, additional, Wilson, Anna, additional, Wu, Longtao, additional, and Yanovsky, Igor, additional

Published
2024
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4. Technology developments for a scalable heterodyne MMIC array at W-band

Author

Sieth, Matthew, Church, Sarah, Lau, Judy M., Voll, Patricia, Gaier, Todd, Kangaslahti, Pekka, Samoska, Lorene, Soria, Mary, Cleary, Kieran, Gawande, Rohit, Readhead, Anthony C. S., Reeves, Rodrigo, Harris, Andrew, Neilson, Jeffrey, Tantawi, Sami, and Van Winkle, Dan

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We report on the development of W-band (75-110 GHz) heterodyne receiver technology for large-format astronomical arrays. The receiver system is designed to be both mass-producible, so that the designs could be scaled to thousands of receiver elements, and modular. Most of the receiver function- ality is integrated into compact Monolithic Microwave Integrated Circuit (MMIC) amplifier-based multichip modules. The MMIC modules include a chain of InP MMIC low-noise amplifiers, coupled-line bandpass filters and sub-harmonic Schottky diode mixers. The receiver signals will be routed to and from the MMIC modules on a multilayer high frequency laminate, which includes splitters, amplifiers, and frequency doublers. A prototype MMIC module has exhibited a band-averaged noise temperature of 41 K from 82-100 GHz and a gain of 29 dB at 15 K, which is the state- of-the-art for heterodyne multi-chip modules., Comment: The copyright owner is the European Microwave Association, EuMA

Published
2012

5. Technology Maturation for Cloud Ice Radiometers

Author

Duffy, Maxwell, Cooke, Caitlyn, Mei, Gerry, Nguyen, Khanh, Escorcia, Alfonso, Gorospe, Ben, Leong, Kevin, Zamora, Alex, Deal, William R, Jiang, Jonathan, Hernandez, Erika, Soria, Mary, Bosch, Javier, Ramos, Isaac, Schlecht, Erich, and Kangaslahti, Pekka

Abstract

Global measurements of ice in clouds, both the amount and particle size distribution, are critically needed to reduce uncertainties in global climate models. The retrieval of this information is best achieved with a range of receiver channels across the submillimeter wave range. Advancement of low noise Indium Phosphide (InP) MMIC amplifier technology to 25-nm gate length enabled us to develop miniature submillimeter-wave receivers for a CubeSat scale instrument that achieves 6 km spatial resolution. We developed the 25-nm InP MMICs and radiometer receivers for 240, 310, 380, 670 GHz. The 25-nm InP MMIC technology was thermal vacuum tested to reduce risk for future space mission.

Published
2022

6. Technology Maturation for Cloud Ice Radiometers

Author

Kangaslahti, Pekka, Schlecht, Erich, Ramos, Isaac, Bosch, Javier, Soria, Mary, Hernandez, Erika, Jiang, Jonathan, Deal, William R, Zamora, Alex, Leong, Kevin, Gorospe, Ben, Escorcia, Alfonso, Nguyen, Khanh, Mei, Gerry, Cooke, Caitlyn, and Duffy, Maxwell

Published
2022

11. Is a geostationary microwave sounder now feasible?

Author

Lambrigtsen, Bjorn H, Kangaslahti, Pekka, Montes, Oliver, Niamsuwan, Noppasin, Posselt, Derek, Roman, Jacola, Schreier, Mathias, Tanner, Alan, Wu, Longtao, and Yanovsky, Igor

Published
2021

12. Is a geostationary microwave sounder now feasible?

Author

Yanovsky, Igor, Wu, Longtao, Tanner, Alan, Schreier, Mathias, Roman, Jacola, Posselt, Derek, Niamsuwan, Noppasin, Montes, Oliver, Kangaslahti, Pekka, and Lambrigtsen, Bjorn H

Published
2021

13. Development of Gallium Nitride Monolithic Microwave Integrated Circuits for Ka-Band Remote Sensing

Author

Cao, Yu, Chen, Shuoqi, Im, Eastwood, Kangaslahti, Pekka, Misra, Sidarth, Brown, Shannon, Chae, Chun Sik, Tsai, Michael, Lin, Robert, Sin, Seth, Peralta, Alejandro, Soria, Mary, Samoska, Lorene, Hoffman, James, and Fung, Andy

Abstract

We have been developing gallium nitride (GaN)monolithic microwave integrated circuits (MMICs) towards thegoal of implementing a single chip transceiver frontend forcloud radar arrays at Ka-band. We present our first iterationdesign, fabrication and test cycle implementation of GaN poweramplifiers (PAs), low noise amplifiers (LNAs), driver amplifier,single-pole- double and triple throw switches, and voltagecontrolled attenuator. These components are necessary forimplementing a transceiver unit cell concept with digitalcalibration capabilities to enable scalable array sizes for radarand radiometry.

Published
2021

23. The Smart Ice cloud sensing (Smices) SmallSat Concept

Author

Tucek, John, Kreischer, Ken, Cooke, Caitlyn, Leong, Kevin, Deal, William, Schlecht, Erich, Jiang, Jonathan, Kangaslahti, Pekka, Brown, Shannon, Misra, Sidharth, Ogut, Mehmet, and Bosch-Lluis, Javier

Published
2020

24. The Smart Ice cloud sensing (Smices) SmallSat Concept

Author

Bosch-Lluis, Javier, Ogut, Mehmet, Misra, Sidharth, Brown, Shannon, Kangaslahti, Pekka, Jiang, Jonathan, Schlecht, Erich, Deal, William, Leong, Kevin, Cooke, Caitlyn, Kreischer, Ken, and Tucek, John

Published
2020

31. Fully-polarimetric millimeter-wave spectrometers for measurement of Earth's magnetic field

Author

Mannucci, Anthony, Brown, Shannon, Schwartz, Michael, Wenkert, Daniel, Verkhoglyadova, Olga, Padmanabhan, Sharmila, Jarnot, Robert, Yee, Sam, and Kangaslahti, Pekka

Abstract

Earth’s ionosphere responds dynamically over a wide range of temporal and spatial scales to changes in the magnetosphere and solar wind from above, and to neutral atmospheric dynamics from below. Determining the dynamics and coupling of Earth's magnetosphere, ionosphere, and atmosphere by vector magnetic field measurements at all altitudes is essential, as the field plays a major role in controlling the distribution of ionospheric plasma. It is difficult to measure the magnetic B-field, either locally or globally, at the altitudes of the upper mesosphere and lower thermosphere (UMLT) where the transfer of energy and momentum between the plasma and neutral components of the system occur. The 118-GHz imaging magnetometer will measure all four Stokes parameters as a function of frequency about the Zeeman-split center of the 118-GHz molecular oxygen line. We are developing an array of fully-polarimetric millimeterwave radiometer/spectrometers operating near 118 GHz. These low cost, low power, low mass polarimetric 118 GHz millimeter-wave array receivers do not require cooling to meet the sensitivity requirements. With digital spectrometers we will be able to integrate the complete end-to-end system. This work will enable a second generation small satellite mission with an off-nadir viewing instrument comprised of 120 such receivers (arranged so that each spot on the Earth is observed simultaneously by four receivers each) that will globally map the magnetic field in the mesosphere at 42-76 km altitude at a horizontal resolution ~100 km with 1-sigma error of 40-120 nT, in typical mesospheric temperature conditions.

Published
2019

37. The Electrojet Zeeman Imaging Explorer (EZIE) Mission and the Microwave Electroject Magnetogram (MEM) Radiometer Instrument

Author

Misra, Sidharth, Padmanabhan, Sharmila, Kangaslahti, Pekka, Montes, Oliver, Bosch-Lluis, Javier, Cofield, Richard, Ramos, Isaac, and Yee, Jeng-Hwa

Subjects
unique payload, CubeSat, EZIE, magnetic field, Auroral Electro Jets
Abstract

The Electrojet Zeeman Imaging Explorer (EZIE) mission is a multi-satellite 6U CubeSat mission designed to temporally and spatially sample the Earth’s current induced magnetic field. The EZIE mission will help discern amongst competing theories of the spatial structures of Auroral Electro Jets (AEJ). The EZIE mission uses a unique payload design relative to traditional magnetometers; a 118.75 GHz mm-wave polarimetric radiometric system with a digital spectrometer backend, called the Microwave Electrojet Magnetogram (MEM) system. MEM measures the Zeeman split in frequency of the Oxygen absorption line that is directly proportional to the strength of the magnetic field of the observation. The polarimetric nature of MEM helps inform about the direction of the magnetic field. The MEM system consists multiple-beams in a push-broom configuration to detect magnetic fields at a approximate altitude of 80km.

Published
2022

40. Autonomous Capabilities and Command and Data Handling Design for the Smart Remote Sensing of Cloud Ice

Author

Ogut, Mehmet, primary, Bosch-Lluis, Xavier, additional, Kangaslahti, Pekka, additional, Ramos-Perez, Isaac, additional, Munoz-Martin, Joan Francesc, additional, Cooperrider, Joelle, additional, Yue, Qing, additional, Swope, Jason, additional, Tavallali, Peyman, additional, Chien, Steve, additional, Pradhan, Omkar, additional, Deal, William, additional, and Cooke, Caitlyn, additional

Published
2022
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42. Sub-20-K Noise Temperature LNA for 67-90 GHz Frequency Band

Author

Vorenen, Mikko, Sarkozy, Stephen, Mei, Xiaobing, Barsky, Michael, Lai, Richard, Samoska, Lorene, Kooi, Jacob, Cleary, Kieran, and Kangaslahti, Pekka

Abstract

Indium Phosphide MMIC LNAs are enabling new capabilities in instrument development. The development of arrays of hundreds of cryogenically-cooled millimeter wave receivers has previously been challenging, but is now achievable with highly repeatable MMIC processes and advances in cryogenic on-wafer testing of LNAs. We have developed InP HEMT LNA MMICs for the 67-90 GHz frequency band that is the last missing receiver system from the ALMA. These MMICs provided average performance of less than 22.5 K noise temperature over the frequency band and minimum noise temperature of 17.5 K at 72 GHz. These LNAs achieve NT=220K (NF=2.4dB) at 90 GHz for Earth remote sensing instrument on Sentinel-6. Our HRMR (High Resolution Microwave Radiometer) achieves NEDT < 0.05K enabling Sentinel-6 to measure coastal ocean topography at 3 km resolution with better than 1 cm accuracy.

Published
2017

44. Signal Digitizer and Cross-Correlation Application Specific Integrated Circuit

Author

Baranauskas, Dalius, Baranauskas, Gytis, Zelenin, Denis, Kangaslahti, Pekka, Tanner, Alan B, and Lim, Boon H

Subjects
Electronics And Electrical Engineering, Communications And Radar
Abstract

According to one embodiment, a cross-correlator comprises a plurality of analog front ends (AFEs), a cross-correlation circuit and a data serializer. Each of the AFEs comprises a variable gain amplifier (VGA) and a corresponding analog-to-digital converter (ADC) in which the VGA receives and modifies a unique analog signal associates with a measured analog radio frequency (RF) signal and the ADC produces digital data associated with the modified analog signal. Communicatively coupled to the AFEs, the cross-correlation circuit performs a cross-correlation operation on the digital data produced from different measured analog RF signals. The data serializer is communicatively coupled to the summing and cross-correlating matrix and continuously outputs a prescribed amount of the correlated digital data.

Published
2017

47. The Advanced Microwave Radiometer – Climate Quality (AMR-C) Instrument for Sentinel-6

Author

Maiwald, Frank, Cofield, Richard, Skalare, Anders, Statham, Shannon, Ramos, Isaac, Kangaslahti, Pekka, Tripp, K. Scott, Milligan, Lance, Bloom, Matthew, Schlecht, Erich, Nicaise, Fabien, Vo, Nho, Koch, Timothy, Brown, Shannon, and Kloosterman, Jenna L

Abstract

The Advanced Microwave Radiometer – Climate Quality (AMR-C) is designed to measure the path delay due to atmospheric water vapor along Sentinel-6 altimeter path over one decade. The AMR-C receiver is based on heritage from previous AMR instruments with the addition of a THz-frequency radiometer, the High Resolution Microwave Radiometer (HRMR), for improved coastal zone accuracy and a Supplemental Calibration System (SCS) to meet level 3 requirements that the path delay error due to the altimeter-derived sea surface height be less at 0.8 cm and the path delay stability be maintained to 0.7 mm averaged over a 1-year time period.

Published
2017

49. Technology Maturation for Cloud Ice Radiometers

Author

Kangaslahti, Pekka, primary, Schlecht, Erich, additional, Ramos, Isaac, additional, Bosch, Javier, additional, Soria, Mary, additional, Hernandez, Erika, additional, Jiang, Jonathan, additional, Deal, William R., additional, Zamora, Alex, additional, Leong, Kevin, additional, Gorospe, Ben, additional, Escorcia, Alfonso, additional, Nguyen, Khanh, additional, Mei, Gerry, additional, Cooke, Caitlyn, additional, and Duffy, Maxwell, additional

Published
2022
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50. Development of hybrid technology (InP/Si) integrated modules for future mm-wave arrays

Author

Reeves, Rodrigo, Martínez, Miguel, Varonen, Mikko, Parveg, Dristy, Kangaslahti, Pekka, Cleary, Kieran, Kooi, Jacob, Ramírez, Wagner, Melillanca, Javier, Vargas, Felipe, and Gabristche, Bekari

Subjects
MMIC multi-chip modules, InP HEMTs, Radio Astronomy Receivers
Abstract

Millimeter-wave transistor based technologies are steadily progressing in areas such as electrical performance (noise and bandwidth), thermal management, power consumption, and miniaturization of complex receiver functionality, and are becoming a viable option for future large-format (> 20 pixels) heterodyne arrays for radio-astronomy. InP and Si-based MMIC technologies have progressed enough so the promise of extreme receiver miniaturization in a small footprint is quickly becoming reality. InP has continued with the dominance in mm-wave cryogenic electrical performance, whereas Si-based circuits have emerged as good candidates in terms of high integration of functionality, and low power consumption. In this talk, we will show recent developments in the design of InP/Si active devices, and discuss about hybrid integration (InP/Si) with the aim of prototyping modules that mix the best of both technologies, increasing the performance of future large mm-wave arrays., Funded by: ANID-Fondecyt 1181620 ANID-QUIMAL ASTRO20-0089

Published
2021
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