Your search keyword '"Briesemeister, Zackery"' showing total 48 results

1. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems V: Do Self-Consistent Atmospheric Models Represent JWST Spectra? A Showcase With VHS 1256 b

Author

Petrus, Simon, Whiteford, Niall, Patapis, Polychronis, Biller, Beth A., Skemer, Andrew, Hinkley, Sasha, Suárez, Genaro, Lueber, Anna, Palma-Bifani, Paulina, Stone, Jordan M., Vos, Johanna M., Morley, Caroline V., Tremblin, Pascal, Charnay, Benjamin, Helling, Christiane, Miles, Brittany E., Carter, Aarynn L., Wang, Jason J., Janson, Markus, Gonzales, Eileen C., Sutlieff, Ben, Hoch, Kielan K. W., Bonnefoy, Mickaël, Chauvin, Gaël, Absil, Olivier, Balmer, William O., Boccaletti, Anthony, Bonavita, Mariangela, Booth, Mark, Bowler, Brendan P., Briesemeister, Zackery W., Bryan, Marta L., Calissendorff, Per, Cantalloube, Faustine, Chen, Christine H., Choquet, Elodie, Christiaens, Valentin, Cugno, Gabriele, Currie, Thayne, Danielski, Camilla, De Furio, Matthew, Dupuy, Trent J., Factor, Samuel M., Faherty, Jacqueline K., Fitzgerald, Michael P., Fortney, Jonathan J., Franson, Kyle, Girard, Julien H., Grady, Carol A., Henning, Thomas, Hines, Dean C., Hood, Callie E., Howe, Alex R., Kalas, Paul, Kammerer, Jens, Kennedy, Grant M., Kenworthy, Matthew A., Kervella, Pierre, Kim, Minjae, Kitzmann, Daniel, Kraus, Adam L., Kuzuhara, Masayuki, Lagage, Pierre-Olivier, Lagrange, Anne-Marie, Lawson, Kellen, Lazzoni, Cecilia, Leisenring, Jarron M., Lew, Ben W. P., Liu, Michael C., Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Macintosh, Bruce, Mâlin, Mathilde, Manjavacas, Elena, Marino, Sebastián, Marley, Mark S., Marois, Christian, Martinez, Raquel A., Matthews, Elisabeth C., Matthews, Brenda C., Mawet, Dimitri, Mazoyer, Johan, McElwain, Michael W., Metchev, Stanimir, Meyer, Michael R., Millar-Blanchaer, Maxwell A., Mollière, Paul, Moran, Sarah E., Mukherjee, Sagnick, Pantin, Eric, Perrin, Marshall D., Pueyo, Laurent, Quanz, Sascha P., Quirrenbach, Andreas, Ray, Shrishmoy, Rebollido, Isabel, Redai, Jea Adams, Ren, Bin B., Rickman, Emily, Sallum, Steph, Samland, Matthias, Sargent, Benjamin, Schlieder, Joshua E., Stapelfeldt, Karl R., Tamura, Motohide, Tan, Xianyu, Theissen, Christopher A., Uyama, Taichi, Vasist, Malavika, Vigan, Arthur, Wagner, Kevin, Ward-Duong, Kimberly, Wolff, Schuyler G., Worthen, Kadin, Wyatt, Mark C., Ygouf, Marie, Zurlo, Alice, Zhang, Xi, Zhang, Keming, Zhan, Zhoujian, and Zhou, Yifan

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The unprecedented medium-resolution (R~1500-3500) near- and mid-infrared (1-18um) spectrum provided by JWST for the young (140+/-20Myr) low-mass (12-20MJup) L-T transition (L7) companion VHS1256b gives access to a catalogue of molecular absorptions. In this study, we present a comprehensive analysis of this dataset utilizing a forward modelling approach, applying our Bayesian framework, ForMoSA. We explore five distinct atmospheric models to assess their performance in estimating key atmospheric parameters: Teff, log(g), [M/H], C/O, gamma, fsed, and R. Our findings reveal that each parameter's estimate is significantly influenced by factors such as the wavelength range considered and the model chosen for the fit. This is attributed to systematic errors in the models and their challenges in accurately replicating the complex atmospheric structure of VHS1256b, notably the complexity of its clouds and dust distribution. To propagate the impact of these systematic uncertainties on our atmospheric property estimates, we introduce innovative fitting methodologies based on independent fits performed on different spectral windows. We finally derived a Teff consistent with the spectral type of the target, considering its young age, which is confirmed by our estimate of log(g). Despite the exceptional data quality, attaining robust estimates for chemical abundances [M/H] and C/O, often employed as indicators of formation history, remains challenging. Nevertheless, the pioneering case of JWST's data for VHS1256b has paved the way for future acquisitions of substellar spectra that will be systematically analyzed to directly compare the properties of these objects and correct the systematics in the models., Comment: 32 pages, 16 figures, 6 tables, 2 appendices

Published

2023

2. Recovering simulated planet and disk signals using SCALES aperture masking

Author

Lach, Mackenzie, Sallum, Steph, Banyal, Ravinder, Batalha, Natalie, Blake, Geoff, Brandt, Tim, Briesemeister, Zackery, Desai, Aditi, Eisner, Josh, Fong, Wen-fai, Greene, Tom, Honda, Mitsuhiko, Kain, Isabel, Kilpatrick, Charlie, de Kleer, Katherine, Liu, Michael, Macintosh, Bruce, Martinez, Raquel, Mawet, Dimitri, Miles, Brittany, Morley, Caroline, de Pater, Imke, Powell, Diana, Sheehan, Patrick, Skemer, Andrew, Spilker, Justin, Stelter, Deno, Stone, Jordan, Surya, Arun, Thirupathi, Sivarani, Wagner, Kevin, and Zhou, Yifan

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Slicer Combined with Array of Lenslets for Exoplanet Spectroscopy (SCALES) instrument is a lenslet-based integral field spectrograph that will operate at 2 to 5 microns, imaging and characterizing colder (and thus older) planets than current high-contrast instruments. Its spatial resolution for distant science targets and/or close-in disks and companions could be improved via interferometric techniques such as sparse aperture masking. We introduce a nascent Python package, NRM-artist, that we use to design several SCALES masks to be non-redundant and to have uniform coverage in Fourier space. We generate high-fidelity mock SCALES data using the scalessim package for SCALES' low spectral resolution modes across its 2 to 5 micron bandpass. We include realistic noise from astrophysical and instrument sources, including Keck adaptive optics and Poisson noise. We inject planet and disk signals into the mock datasets and subsequently recover them to test the performance of SCALES sparse aperture masking and to determine the sensitivity of various mask designs to different science signals.

Published

2023

3. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems III: Aperture Masking Interferometric Observations of the star HIP 65426

Author

Ray, Shrishmoy, Sallum, Steph, Hinkley, Sasha, Sivamarakrishnan, Anand, Cooper, Rachel, Kammerer, Jens, Greebaum, Alexandra Z., Thatte, Deepashri, Lazzoni, Cecilia, Tokovinin, Andrei, de Furio, Matthew, Factor, Samuel, Meyer, Michael, Stone, Jordan M., Carter, Aarynn, Biller, Beth, Skemer, Andrew, Suarez, Genaro, Leisenring, Jarron M., Perrin, Marshall D., Kraus, Adam L., Absil, Olivier, Balmer, William O., Bonnefoy, Mickael, Bryan, Marta L., Betti, Sarah K., Boccaletti, Anthony, Bonavita, Mariangela, Booth, Mark, Bowler, Brendan P., Briesemeister, Zackery W., Cantalloube, Faustine, Chauvin, Gael, Christiaens, Valentin, Cugno, Gabriele, Currie, Thayne, Danielski, Camilla, Dupuy, Trent J., Faherty, Jacqueline K., Chen, Christine H., Calissendorff, Per, Choquet, Elodie, Fitzgerald, Michael P., Fortney, Jonathan J., Franson, Kyle, Girard, Julien H., Grady, Carol A., Gonzales, Eileen C., Henning, Thomas, Hines, Dean C., Hoch, Kielan K. W., Hood, Callie E., Howe, Alex R., Janson, Markus, Kalas, Paul, Kennedy, Grant M., Kenworthy, Matthew A., Kervella, Pierre, Kitzmann, Daniel, Kuzuhara, Masayuki, Lagrange, Anne-Marie, Lagage, Pierre-Olivier, Lawson, Kellen, Lew, Ben W. P., Liu, Michael C., Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Lueber, Anna, Macintosh, Bruce, Manjavacas, Elena, Marino, Sebastian, Marley, Mark S., Marois, Christian, Martinez, Raquel A., Matthews, Brenda C., Matthews, Elisabeth C., Mawet, Dimitri, Mazoyer, Johan, McElwain, Michael W., Metchev, Stanimir, Miles, Brittany E., Millar-Blanchaer, Maxwell A., Molliere, Paul, Moran, Sarah E., Morley, Caroline V., Mukherjee, Sagnick, Palma-Bifani, Paulina, Pantin, Eric, Patapis, Polychronis, Petrus, Simon, Pueyo, Laurent, Quanz, Sascha P., Quirrenbach, Andreas, Rebollido, Isabel, Redai, Jea Adams, Ren, Bin B., Rickman, Emily, Samland, Matthias, Sargent, B. A., Schlieder, Joshua E., Schneider, Glenn, Stapelfeldt, Karl R., Sutlieff, Ben J., Tamura, Motohide, Tan, Xianyu, Theissen, Christopher A., Uyama, Taichi, Vigan, Arthur, Vasist, Malavika, Vos, Johanna M., Wagner, Kevin, Wang, Jason J., Ward-Duong, Kimberly, Whiteford, Niall, Wolff, Schuyler G., Worthen, Kadin, Wyatt, Mark C., Ygouf, Marie, Zhang, Xi, Zhang, Keming, Zhang, Zhoujian, and Zhou, Yifan

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present aperture masking interferometry (AMI) observations of the star HIP 65426 at $3.8\,\rm{\mu m}$ as a part of the JWST Direct Imaging Early Release Science (ERS) program obtained using the Near Infrared Imager and Slitless Spectrograph (NIRISS) instrument. This mode provides access to very small inner working angles (even separations slightly below the Michelson limit of $0.5\lambda/D$ for an interferometer), which are inaccessible with the classical inner working angles of the JWST coronagraphs. When combined with JWST's unprecedented infrared sensitivity, this mode has the potential to probe a new portion of parameter space across a wide array of astronomical observations. Using this mode, we are able to achieve a $5\sigma$ contrast of $\Delta m{\sim}7.62{\pm}0.13$ mag relative to the host star at separations ${\gtrsim}0.07{"}$, and the contrast deteriorates steeply at separations ${\lesssim}0.07{"}$. However, we detect no additional companions interior to the known companion HIP 65426 b (at separation ${\sim}0.82{"}$ or, $87^{+108}_{-31}\,\rm{au}$). Our observations thus rule out companions more massive than $10{-}12\,\rm{M_{Jup}}$ at separations ${\sim}10{-}20\,\rm{au}$ from HIP 65426, a region out of reach of ground or space-based coronagraphic imaging. These observations confirm that the AMI mode on JWST is sensitive to planetary mass companions at close-in separations (${\gtrsim}0.07{"}$), even for thousands of more distant stars at $\sim$100 pc, in addition to the stars in the nearby young moving groups as stated in previous works. This result will allow the planning and successful execution of future observations to probe the inner regions of nearby stellar systems, opening an essentially unexplored parameter space., Comment: 20 pages, 12 figures, submitted to ApJL

Published

2023

4. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems IV: NIRISS Aperture Masking Interferometry Performance and Lessons Learned

Author

Sallum, Steph, Ray, Shrishmoy, Kammerer, Jens, Sivaramakrishnan, Anand, Cooper, Rachel, Greebaum, Alexandra Z., Thatte, Deepashri, de Furio, Matthew, Factor, Samuel, Meyer, Michael, Stone, Jordan M., Carter, Aarynn, Biller, Beth, Hinkley, Sasha, Skemer, Andrew, Suarez, Genaro, Leisenring, Jarron M., Perrin, Marshall D., Kraus, Adam L., Absil, Olivier, Balmer, William O., Bonnefoy, Mickael, Bryan, Marta L., Betti, Sarah K., Boccaletti, Anthony, Bonavita, Mariangela, Booth, Mark, Bowler, Brendan P., Briesemeister, Zackery W., Cantalloube, Faustine, Chauvin, Gael, Christiaens, Valentin, Cugno, Gabriele, Currie, Thayne, Danielski, Camilla, Dupuy, Trent J., Faherty, Jacqueline K., Chen, Christine H., Calissendorff, Per, Choquet, Elodie, Fitzgerald, Michael P., Fortney, Jonathan J., Franson, Kyle, Girard, Julien H., Grady, Carol A., Gonzales, Eileen C., Henning, Thomas, Hines, Dean C., Hoch, Kielan K. W., Hood, Callie E., Howe, Alex R., Janson, Markus, Kalas, Paul, Kennedy, Grant M., Kenworthy, Matthew A., Kervella, Pierre, Kitzmann, Daniel, Kuzuhara, Masayuki, Lagrange, Anne-Marie, Lagage, Pierre-Olivier, Lawson, Kellen, Lazzoni, Cecilia, Lew, Ben W. P., Liu, Michael C., Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Lueber, Anna, Macintosh, Bruce, Manjavacas, Elena, Marino, Sebastian, Marley, Mark S., Marois, Christian, Martinez, Raquel A., Matthews, Brenda C., Matthews, Elisabeth C., Mawet, Dimitri, Mazoyer, Johan, McElwain, Michael W., Metchev, Stanimir, Miles, Brittany E., Millar-Blanchaer, Maxwell A., Molliere, Paul, Moran, Sarah E., Morley, Caroline V., Mukherjee, Sagnick, Palma-Bifani, Paulina, Pantin, Eric, Patapis, Polychronis, Petrus, Simon, Pueyo, Laurent, Quanz, Sascha P., Quirrenbach, Andreas, Rebollido, Isabel, Redai, Jea Adams, Ren, Bin B., Rickman, Emily, Samland, Matthias, Sargent, B. A., Schlieder, Joshua E., Schneider, Glenn, Stapelfeldt, Karl R., Sutlieff, Ben J., Tamura, Motohide, Tan, Xianyu, Theissen, Christopher A., Uyama, Taichi, Vigan, Arthur, Vasist, Malavika, Vos, Johanna M., Wagner, Kevin, Wang, Jason J., Ward-Duong, Kimberly, Whiteford, Niall, Wolff, Schuyler G., Worthen, Kadin, Wyatt, Mark C., Ygouf, Marie, Zhang, Xi, Zhang, Keming, Zhang, Zhoujian, Zhou, Yifan, and Zurlo, Alice

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present a performance analysis for the aperture masking interferometry (AMI) mode on board the James Webb Space Telescope Near Infrared Imager and Slitless Spectrograph (JWST/NIRISS). Thanks to self-calibrating observables, AMI accesses inner working angles down to and even within the classical diffraction limit. The scientific potential of this mode has recently been demonstrated by the Early Release Science (ERS) 1386 program with a deep search for close-in companions in the HIP 65426 exoplanetary system. As part of ERS 1386, we use the same data set to explore the random, static, and calibration errors of NIRISS AMI observables. We compare the observed noise properties and achievable contrast to theoretical predictions. We explore possible sources of calibration errors and show that differences in charge migration between the observations of HIP 65426 and point-spread function calibration stars can account for the achieved contrast curves. Lastly, we use self-calibration tests to demonstrate that with adequate calibration NIRISS F380M AMI can reach contrast levels of $\sim9-10$ mag at $\gtrsim \lambda/D$. These tests lead us to observation planning recommendations and strongly motivate future studies aimed at producing sophisticated calibration strategies taking these systematic effects into account. This will unlock the unprecedented capabilities of JWST/NIRISS AMI, with sensitivity to significantly colder, lower-mass exoplanets than lower-contrast ground-based AMI setups, at orbital separations inaccessible to JWST coronagraphy., Comment: 20 pages, 12 figures, accepted to Astrophysical Journal Letters

Published

2023

5. Direct images and spectroscopy of a giant protoplanet driving spiral arms in MWC 758

Author

Wagner, Kevin, Stone, Jordan, Skemer, Andrew, Ertel, Steve, Dong, Ruobing, Apai, Dániel, Spalding, Eckhart, Leisenring, Jarron, Sitko, Michael, Kratter, Kaitlin, Barman, Travis, Marley, Mark, Miles, Brittany, Boccaletti, Anthony, Assani, Korash, Bayyari, Ammar, Uyama, Taichi, Woodward, Charles E., Hinz, Phil, Briesemeister, Zackery, Lawson, Kellen, Ménard, François, Pantin, Eric, Russell, Ray W., Skrutskie, Michael, and Wisniewski, John

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Understanding the driving forces behind spiral arms in protoplanetary disks remains a challenge due to the faintness of young giant planets. MWC 758 hosts such a protoplanetary disk with a two-armed spiral pattern that is suggested to be driven by an external giant planet. We present new thermal infrared observations that are uniquely sensitive to redder (i.e., colder or more attenuated) planets than past observations at shorter wavelengths. We detect a giant protoplanet, MWC 758c, at a projected separation of ~100 au from the star. The spectrum of MWC 758c is distinct from the rest of the disk and consistent with emission from a planetary atmosphere with Teff = 500 +/- 100 K for a low level of extinction (AV<30), or a hotter object with a higher level of extinction. Both scenarios are commensurate with the predicted properties of the companion responsible for driving the spiral arms. MWC 758c provides evidence that spiral arms in protoplanetary disks can be caused by cold giant planets or by those whose optical emission is highly attenuated. MWC 758c stands out both as one of the youngest giant planets known, and also as one of the coldest and/or most attenuated. Furthermore, MWC 758c is among the first planets to be observed within a system hosting a protoplanetary disk., Comment: Published in Nature Astronomy

Published

2023

6. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems II: A 1 to 20 Micron Spectrum of the Planetary-Mass Companion VHS 1256-1257 b

Author

Miles, Brittany E., Biller, Beth A., Patapis, Polychronis, Worthen, Kadin, Rickman, Emily, Hoch, Kielan K. W., Skemer, Andrew, Perrin, Marshall D., Whiteford, Niall, Chen, Christine H., Sargent, B., Mukherjee, Sagnick, Morley, Caroline V., Moran, Sarah E., Bonnefoy, Mickael, Petrus, Simon, Carter, Aarynn L., Choquet, Elodie, Hinkley, Sasha, Ward-Duong, Kimberly, Leisenring, Jarron M., Millar-Blanchaer, Maxwell A., Pueyo, Laurent, Ray, Shrishmoy, Stapelfeldt, Karl R., Stone, Jordan M., Wang, Jason J., Absil, Olivier, Balmer, William O., Boccaletti, Anthony, Bonavita, Mariangela, Booth, Mark, Bowler, Brendan P., Chauvin, Gael, Christiaens, Valentin, Currie, Thayne, Danielski, Camilla, Fortney, Jonathan J., Girard, Julien H., Greenbaum, Alexandra Z., Henning, Thomas, Hines, Dean C., Janson, Markus, Kalas, Paul, Kammerer, Jens, Kenworthy, Matthew A., Kervella, Pierre, Lagage, Pierre-Olivier, Lew, Ben W. P., Liu, Michael C., Macintosh, Bruce, Marino, Sebastian, Marley, Mark S., Marois, Christian, Matthews, Elisabeth C., Matthews, Brenda C., Mawet, Dimitri, McElwain, Michael W., Metchev, Stanimir, Meyer, Michael R., Molliere, Paul, Pantin, Eric, Rebollido, Andreas Quirrenbachm Isabel, Ren, Bin B., Vasist, Malavika, Wyatt, Mark C., Zhou, Yifan, Briesemeister, Zackery W., Bryan, Marta L., Calissendorff, Per, Catalloube, Faustine, Cugno, Gabriele, De Furio, Matthew, Dupuy, Trent J., Factor, Samuel M., Faherty, Jacqueline K., Fitzgerald, Michael P., Franson, Kyle, Gonzales, Eileen C., Hood, Callie E., Howe, Alex R., Kraus, Adam L., Kuzuhara, Masayuki, Lawson, Kellen, Lazzoni, Cecilia, Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Martinez, Raquel A., Mazoyer, Johan, Quanz, Sascha P., Redai, Jea Adams, Samland, Matthias, Schlieder, Joshua E., Tamura, Motohide, Tan, Xianyu, Uyama, Taichi, Vigan, Arthur, Vos, Johanna M., Wagner, Kevin, Wolff, Schuyler G., Ygouf, Marie, Zhang, Keming, and Zhang, Zhoujian

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We present the highest fidelity spectrum to date of a planetary-mass object. VHS 1256 b is a $<$20 M$_\mathrm{Jup}$ widely separated ($\sim$8\arcsec, a = 150 au), young, planetary-mass companion that shares photometric colors and spectroscopic features with the directly imaged exoplanets HR 8799 c, d, and e. As an L-to-T transition object, VHS 1256 b exists along the region of the color-magnitude diagram where substellar atmospheres transition from cloudy to clear. We observed VHS 1256~b with \textit{JWST}'s NIRSpec IFU and MIRI MRS modes for coverage from 1 $\mu$m to 20 $\mu$m at resolutions of $\sim$1,000 - 3,700. Water, methane, carbon monoxide, carbon dioxide, sodium, and potassium are observed in several portions of the \textit{JWST} spectrum based on comparisons from template brown dwarf spectra, molecular opacities, and atmospheric models. The spectral shape of VHS 1256 b is influenced by disequilibrium chemistry and clouds. We directly detect silicate clouds, the first such detection reported for a planetary-mass companion., Comment: Accepted ApJL. Iterations of spectra reduced by the ERS team are hosted at this link: https://github.com/bemiles/JWST_VHS1256b_Reduction/tree/main/reduced_spectra

Published

2022

7. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems I: High Contrast Imaging of the Exoplanet HIP 65426 b from 2-16 $\mu$m

Author

Carter, Aarynn L., Hinkley, Sasha, Kammerer, Jens, Skemer, Andrew, Biller, Beth A., Leisenring, Jarron M., Millar-Blanchaer, Maxwell A., Petrus, Simon, Stone, Jordan M., Ward-Duong, Kimberly, Wang, Jason J., Girard, Julien H., Hines, Dean C., Perrin, Marshall D., Pueyo, Laurent, Balmer, William O., Bonavita, Mariangela, Bonnefoy, Mickael, Chauvin, Gael, Choquet, Elodie, Christiaens, Valentin, Danielski, Camilla, Kennedy, Grant M., Matthews, Elisabeth C., Miles, Brittany E., Patapis, Polychronis, Ray, Shrishmoy, Rickman, Emily, Sallum, Steph, Stapelfeldt, Karl R., Whiteford, Niall, Zhou, Yifan, Absil, Olivier, Boccaletti, Anthony, Booth, Mark, Bowler, Brendan P., Chen, Christine H., Currie, Thayne, Fortney, Jonathan J., Grady, Carol A., Greenbaum, Alexandra Z., Henning, Thomas, Hoch, Kielan K. W., Janson, Markus, Kalas, Paul, Kenworthy, Matthew A., Kervella, Pierre, Kraus, Adam L., Lagage, Pierre-Olivier, Liu, Michael C., Macintosh, Bruce, Marino, Sebastian, Marley, Mark S., Marois, Christian, Matthews, Brenda C., Mawet, Dimitri, McElwain, Michael W., Metchev, Stanimir, Meyer, Michael R., Molliere, Paul, Moran, Sarah E., Morley, Caroline V., Mukherjee, Sagnick, Pantin, Eric, Quirrenbach, Andreas, Rebollido, Isabel, Ren, Bin B., Schneider, Glenn, Vasist, Malavika, Worthen, Kadin, Wyatt, Mark C., Briesemeister, Zackery W., Bryan, Marta L., Calissendorff, Per, Cantalloube, Faustine, Cugno, Gabriele, De Furio, Matthew, Dupuy, Trent J., Factor, Samuel M., Faherty, Jacqueline K., Fitzgerald, Michael P., Franson, Kyle, Gonzales, Eileen C., Hood, Callie E., Howe, Alex R., Kuzuhara, Masayuki, Lagrange, Anne-Marie, Lawson, Kellen, Lazzoni, Cecilia, Lew, Ben W. P., Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Martinez, Raquel A., Mazoyer, Johan, Palma-Bifani, Paulina, Quanz, Sascha P., Redai, Jea Adams, Samland, Matthias, Schlieder, Joshua E., Tamura, Motohide, Tan, Xianyu, Uyama, Taichi, Vigan, Arthur, Vos, Johanna M., Wagner, Kevin, Wolff, Schuyler G., Ygouf, Marie, Zhang, Xi, Zhang, Keming, and Zhang, Zhoujian

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present JWST Early Release Science (ERS) coronagraphic observations of the super-Jupiter exoplanet, HIP 65426 b, with the Near-Infrared Camera (NIRCam) from 2-5 $\mu$m, and with the Mid-Infrared Instrument (MIRI) from 11-16 $\mu$m. At a separation of $\sim$0.82" (86$^{+116}_{-31}$ au), HIP 65426 b is clearly detected in all seven of our observational filters, representing the first images of an exoplanet to be obtained by JWST, and the first ever direct detection of an exoplanet beyond 5 $\mu$m. These observations demonstrate that JWST is exceeding its nominal predicted performance by up to a factor of 10, depending on separation and subtraction method, with measured 5$\sigma$ contrast limits of $\sim$1$\times10^{-5}$ and $\sim$2$\times10^{-4}$ at 1" for NIRCam at 4.4 $\mu$m and MIRI at 11.3 $\mu$m, respectively. These contrast limits provide sensitivity to sub-Jupiter companions with masses as low as 0.3$M_\mathrm{Jup}$ beyond separations of $\sim$100 au. Together with existing ground-based near-infrared data, the JWST photometry are well fit by a BT-SETTL atmospheric model from 1-16 $\mu$m, and span $\sim$97% of HIP 65426 b's luminous range. Independent of the choice of model atmosphere we measure an empirical bolometric luminosity that is tightly constrained between $\mathrm{log}\!\left(L_\mathrm{bol}/L_{\odot}\right)$=-4.31 to $-$4.14, which in turn provides a robust mass constraint of 7.1$\pm$1.2 $M_\mathrm{Jup}$. In totality, these observations confirm that JWST presents a powerful and exciting opportunity to characterise the population of exoplanets amenable to high-contrast imaging in greater detail., Comment: 35 pages, 16 figures, 4 tables, 1 wonderful telescope; Submitted to AAS Journals

Published

2022

8. SCALES for Keck: Optical Design

Author

Kupke, Renate, Stelter, R. Deno, Hasan, Amirul, Surya, Arun, Kain, Isabel, Briesemeister, Zackery, Li, Jialin, Hinz, Phil, Skemer, Andrew, Gerard, Benjamin, Dillon, Daren, and Ratliff, Christopher

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

SCALES is a high-contrast, infrared coronagraphic imager and integral field spectrograph (IFS) to be deployed behind the W.M. Keck Observatory adaptive optics system. A reflective optical design allows diffraction-limited imaging over a large wavelength range (1.0 - 5.0 microns). A microlens array-based IFS coupled with a lenslet reformatter ("slenslit") allow spectroscopy at both low (R = 35 - 250) and moderate (R = 2000 - 6500) spectral resolutions. The large wavelength range, diffraction-limited performance, high contrast coronagraphy and cryogenic operation present a unique optical design challenge. We present the full SCALES optical design, including performance modeling and analysis and manufacturing., Comment: SPIE Astronomical Telescopes and Instrumentation, 2022

Published

2022

9. Design of SCALES: A 2-5 Micron Coronagraphic Integral Field Spectrograph for Keck Observatory

Author

Skemer, Andrew, Stelter, R. Deno, Sallum, Stephanie, MacDonald, Nicholas, Kupke, Renate, Ratliffe, Christopher, Banyal, Ravinder, Hasan, Amirul, Varshney, Hari Mohan, Surya, Arun, Prakash, Ajin, Thirupathi, Sivarani, Sethuraman, Ramya, V., Govinda K., Fitzgerald, Michael P., Wang, Eric, Kassis, Marc, Absil, Olivier, Alvarez, Carlos, Batalha, Natasha, Boucher, Marc-Andre, Bourgenot, Cyril, Brandt, Timothy, Briesemeister, Zackery, de Kleer, Katherine, de Pater, Imke, Deich, William, Divakar, Devika, Filion, Guillaume, Gauvin, Etienne, Gonzales, Michael, Greene, Thomas, Hinz, Philip, Jensen-Clem, Rebecca, Johnson, Christopher, Kain, Isabel, Kruglikov, Gabriel, Lach, Mackenzie, Landry, Jean-Thomas, Li, Jialin, Liu, Michael C., Lyke, James, Magnone, Kenneth, Marin, Eduardo, Martin, Emily C., Martinez, Raquel A., Mawet, Dimitri, Miles, Brittany, Sandford, Dale, Sheehan, Patrick, Sohn, Ji Man, and Stone, Jordan

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present the design of SCALES (Slicer Combined with Array of Lenslets for Exoplanet Spectroscopy) a new 2-5 micron coronagraphic integral field spectrograph under construction for Keck Observatory. SCALES enables low-resolution (R~50) spectroscopy, as well as medium-resolution (R~4,000) spectroscopy with the goal of discovering and characterizing cold exoplanets that are brightest in the thermal infrared. Additionally, SCALES has a 12x12" field-of-view imager that will be used for general adaptive optics science at Keck. We present SCALES's specifications, its science case, its overall design, and simulations of its expected performance. Additionally, we present progress on procuring, fabricating and testing long lead-time components., Comment: 19 pages, 12 Figures, SPIE Astronomical Telescopes + Instrumentation, (#12184-18), 2022, Montreal, Canada

Published

2022

10. L-band Integral Field Spectroscopy of the HR 8799 Planetary System

Author

Doelman, David S., Stone, Jordan M., Briesemeister, Zackery W., Skemer, Andrew J. I., Barman, Travis, Brock, Laci S., Hinz, Philip M., Bohn, Alexander, Kenworthy, Matthew, Haffert, Sebastiaan Y., Snik, Frans, Ertel, Steve, Leisenring, Jarron M., Woodward, Charles E., and Skrutskie, Michael F.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Understanding the physical processes sculpting the appearance of young gas-giant planets is complicated by degeneracies confounding effective temperature, surface gravity, cloudiness, and chemistry. To enable more detailed studies, spectroscopic observations covering a wide range of wavelengths is required. Here we present the first L-band spectroscopic observations of HR 8799 d and e and the first low-resolution wide bandwidth L-band spectroscopic measurements of HR 8799 c. These measurements were facilitated by an upgraded LMIRCam/ALES instrument at the LBT, together with a new apodizing phase plate coronagraph. Our data are generally consistent with previous photometric observations covering similar wavelengths, yet there exists some tension with narrowband photometry for HR 8799 c. With the addition of our spectra, each of the three innermost observed planets in the HR 8799 system have had their spectral energy distributions measured with integral field spectroscopy covering $\sim0.9$ to $4.1~\mu\mathrm{m}$. We combine these spectra with measurements from the literature and fit synthetic model atmospheres. We demonstrate that the bolometric luminosity of the planets is not sensitive to the choice of model atmosphere used to interpolate between measurements and extrapolate beyond them. Combining luminosity with age and mass constraints, we show that the predictions of evolutionary models are narrowly peaked for effective temperature, surface gravity, and planetary radius. By holding these parameters at their predicted values, we show that more flexible cloud models can provide good fits to the data while being consistent with the expectations of evolutionary models., Comment: 19 pages, 11 figures, accepted for publication in The Astronomical Journal; added reference, updated figure 6 and table 4

Published

2022

11. Information Content Approach to Trade Studies for SCALES

Author

Briesemeister, Zackery, Sallum, Steph, Skemer, Andrew, and Batalha, Natasha

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The advantage of having a high-fidelity instrument simulation tool developed in tandem with novel instrumentation is having the ability to investigate, in isolation and in combination, the wide parameter space set by the instrument design. SCALES, the third generation thermal-infrared diffraction limited imager and low/med-resolution integral field spectrograph being designed for Keck, is an instrument unique in design in order to optimize for its driving science case of direct detection and characterization of thermal emission from cold exoplanets. This warranted an end-to-end simulation tool that systematically produces realistic mock data from SCALES to probe the recovery of injected signals under changes in instrument design parameters. In this paper, we quantify optomechanical tolerance and detector electronic requirements set by the fiducial science cases using information content analysis, and test the consequences of updates to the design of the instrument on meeting these requirements., Comment: 7 pages, 4 figures, SPIE Optical Engineering and Applications 2021

Published

2021

12. Update on the Preliminary Design of SCALES: the Santa Cruz Array of Lenslets for Exoplanet Spectroscopy

Author

Stelter, R. Deno, Skemer, Andrew J., Sallum, Steph, Kupke, Renate, Hinz, Phil, Mawet, Dimitri, Jensen-Clem, Rebecca, Ratliffe, Christopher, MacDonald, Nicholas, Deich, William, Kruglikov, Gabriel, Kassis, Marc, Lyke, Jim, Briesemeister, Zackery, Miles, Brittany, Gerard, Benjamin, Fitzgerald, Michael, Brandt, Timothy, and Marois, Christian

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

SCALES (Santa Cruz Array of Lenslets for Exoplanet Spectroscopy) is a 2-5 micron high-contrast lenslet integral-field spectrograph (IFS) driven by exoplanet characterization science requirements and will operate at W. M. Keck Observatory. Its fully cryogenic optical train uses a custom silicon lenslet array, selectable coronagraphs, and dispersive prisms to carry out integral field spectroscopy over a 2.2 arcsec field of view at Keck with low ($<300$) spectral resolution. A small, dedicated section of the lenslet array feeds an image slicer module that allows for medium spectral resolution ($5000-10 000$), which has not been available at the diffraction limit with a coronagraphic instrument before. Unlike previous IFS exoplanet instruments, SCALES is capable of characterizing cold exoplanet and brown dwarf atmospheres ($<600$ K) at bandpasses where these bodies emit most of their radiation while capturing relevant molecular spectral features., Comment: 24 pages, 13 figures, SPIE Astronomical Instruments and Telescopes 2020 conference

Published

2020

13. End-to-end Simulation of the SCALES Integral Field Spectrograph

Author

Briesemeister, Zackery, Sallum, Steph, Skemer, Andrew, Stelter, R. Deno, Hinz, Philip, and Brandt, Timothy

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present end-to-end simulations of SCALES, the third generation thermal-infrared diffraction limited imager and low/med-resolution integral field spectrograph (IFS) being designed for Keck. The 2-5 micron sensitivity of SCALES enables detection and characterization of a wide variety of exoplanets, including exoplanets detected through long-baseline astrometry, radial-velocity planets on wide orbits, accreting protoplanets in nearby star-forming regions, and reflected-light planets around the nearest stars. The simulation goal is to generate high-fidelity mock data to assess the scientific capabilities of the SCALES instrument at current and future design stages. The simulation processes arbitrary-resolution input intensity fields with a proposed observation pattern into an entire mock dataset of raw detector read-out lenslet-based IFS frames with calibrations and metadata, which are then reduced by the IFS data reduction pipeline to be analyzed by the user., Comment: 13 pages, 8 figures, Society of Photo-Optical Instrumentation Engineers

Published

2020

14. High Contrast Thermal Infrared Spectroscopy with ALES: The 3-4$\mu$m Spectrum of $\kappa$ Andromedae b

Author

Stone, Jordan M., Barman, Travis, Skemer, Andrew J., Briesemeister, Zackery W., Brock, Laci S., Hinz, Philip M., Leisenring, Jarron M., Woodward, Charles E., Skrutskie, Michael F., and Spalding, Eckhart

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the first $L-$band (2.8 to 4.1~$\mu$m) spectroscopy of $\kappa$~Andromedae~b, a $\sim20~M_{\mathrm{Jup}}$ companion orbiting at $1^{\prime\prime}$ projected separation from its B9-type stellar host. We combine our Large Binocular Telescope ALES integral field spectrograph data with measurements from other instruments to analyze the atmosphere and physical characteristics of $\kappa$~And~b. We report a discrepancy of $\sim20\%$ ($2\sigma$) in the $L^{\prime}$ flux of $\kappa$~And~b when comparing to previously published values. We add an additional $L^{\prime}$ constraint using an unpublished imaging dataset collected in 2013 using LBTI/LMIRCam, the instrument in which the ALES module has been built. The LMIRCam measurement is consistent with the ALES measurement, both suggesting a fainter $L$-band scaling than previous studies. The data, assuming the flux scaling measured by ALES and LMIRCam imaging, are well fit by an L3-type brown dwarf. Atmospheric model fits to measurements spanning 0.9-4.8~$\mu$m reveal some tension with the predictions of evolutionary models, but the proper choice of cloud parameters can provide some relief. In particular, models with clouds extending to very-low pressures composed of grains $\leq1~\mu$m appear to be necessary. If the brighter $L^{\prime}$ photometry is accurate, there is a hint that sub-solar metallicity may be required., Comment: Accepted for publication in AJ

Published

2020

15. High Spatial Resolution Thermal-Infrared Spectroscopy with ALES: Resolved Spectra of the Benchmark Brown Dwarf Binary HD 130948BC

Author

Briesemeister, Zackery W., Skemer, Andrew J., Stone, Jordan M., Barman, Travis S., Hinz, Philip, Leisenring, Jarron, Skrutskie, Michael F., Woodward, Charles E., and Spalding, Eckhart

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present 2.9-4.1 micron integral field spectroscopy of the L4+L4 brown dwarf binary HD 130948BC, obtained with the Arizona Lenslets for Exoplanet Spectroscopy (ALES) mode of the Large Binocular Telescope Interferometer (LBTI). The HD 130948 system is a hierarchical triple system, in which the G2V primary is joined by two co-orbiting brown dwarfs. By combining the age of the system with the dynamical masses and luminosities of the substellar companions, we can test evolutionary models of cool brown dwarfs and extra-solar giant planets. Previous near-infrared studies suggest a disagreement between HD 130948BC luminosities and those derived from evolutionary models. We obtained spatially-resolved, low-resolution (R~20) L-band spectra of HD 130948B and C to extend the wavelength coverage into the thermal infrared. Jointly using JHK photometry and ALES L-band spectra for HD 130948BC, we derive atmospheric parameters that are consistent with parameters derived from evolutionary models. We leverage the consistency of these atmospheric quantities to favor a younger age (0.50 \pm 0.07 Gyr) of the system compared to the older age (0.79 \pm 0.22 Gyr) determined with gyrochronology in order to address the luminosity discrepancy., Comment: 17 pages, 9 figures, Accepted to ApJ

Published

2019

16. MEAD: Data Reduction Pipeline for ALES Integral Field Spectrograph and LBTI Thermal Infrared Calibration Unit

Author

Briesemeister, Zackery, Skemer, Andrew J., Stone, Jordan M., Stelter, R. Deno, Hinz, Philip, Leisenring, Jarron, Skrutskie, Michael F., Woodward, Charles E., and Barman, Travis

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present the data reduction pipeline, MEAD, for Arizona Lenslets for Exoplanet Spectroscopy (ALES), the first thermal infrared integral field spectrograph designed for high-contrast imaging. ALES is an upgrade of LMIRCam, the $1-5\,\mu$m imaging camera for the Large Binocular Telescope, capable of observing astronomical objects in the thermal infrared ($3-5\,\mu$m) to produce simultaneous spatial and spectral data cubes. The pipeline is currently designed to perform $L$-band ($2.8-4.2\,\mu$m) data cube reconstruction, relying on methods used extensively by current near-infrared integral field spectrographs. ALES data cube reconstruction on each spectra uses an optimal extraction method. The calibration unit comprises a thermal infrared source, a monochromator and an optical diffuser designed to inject specific wavelengths of light into LBTI to evenly illuminate the pupil plane and ALES lenslet array with monochromatic light. Not only does the calibration unit facilitate wavelength calibration for ALES and LBTI, but it also provides images of monochromatic point spread functions (PSFs). A linear combination of these monochromatic PSFs can be optimized to fit each spectrum in the least-square sense via $\chi^2$ fitting., Comment: 12 pages, 4 figures

Published

2018

17. The Planetary Systems Imager: 2-5 Micron Channel

Author

Skemer, Andrew J., Stelter, Deno, Mawet, Dimitri, Fitzgerald, Michael, Mazin, Benjamin, Guyon, Olivier, Marois, Christian, Briesemeister, Zackery, Brandt, Timothy, Chilcote, Jeffrey, Delorme, Jacques-Robert, Jovanovic, Nemanja, Lu, Jessica, Millar-Blanchaer, Maxwell, Wallace, James, Vasisht, Gautam, Roberts Jr., Lewis C., and Wang, Ji

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We summarize the red channel (2-5 micron) of the Planetary Systems Imager (PSI), a proposed second-generation instrument for the TMT. Cold exoplanets emit the majority of their light in the thermal infrared, which means these exoplanets can be detected at a more modest contrast than at other wavelengths. PSI-Red will be able to detect and characterize a wide variety of exoplanets, including radial-velocity planets on wide orbits, accreting protoplanets in nearby star-forming regions, and reflected-light planets around the nearest stars. PSI-Red will feature an imager, a low-resolution lenslet integral field spectrograph, a medium-resolution lenslet+slicer integral field spectrograph, and a fiber-fed high-resolution spectrograph., Comment: 7 pages, 5 figures

Published

2018

18. ALES: Overview and Upgrades

Author

Skemer, Andrew J., Hinz, Philip, Stone, Jordan, Skrutskie, Michael, Woodward, Charles E., Leisenring, Jarron, and Briesemeister, Zackery

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Arizona Lenslets for Exoplanet Spectroscopy (ALES) is the world's first AO-fed thermal infrared integral field spectrograph, mounted inside the Large Binocular Telescope Interferometer (LBTI) on the LBT. An initial mode of ALES allows 3-4 micron spectra at R~20 with 0.026'' spaxels over a 1''x1'' field-of-view. We are in the process of upgrading ALES with additional wavelength ranges, spectral resolutions, and plate scales allowing a broad suite of science that takes advantage of ALES's unique ability to work at wavelengths >2 microns, and at the diffraction limit of the LBT's full 23.8 meter aperture., Comment: 8 pages, 8 figures

Published

2018

19. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems. V. Do Self-consistent Atmospheric Models Represent JWST Spectra? A Showcase with VHS 1256–1257 b

Author

Petrus, Simon, primary, Whiteford, Niall, additional, Patapis, Polychronis, additional, Biller, Beth A., additional, Skemer, Andrew, additional, Hinkley, Sasha, additional, Suárez, Genaro, additional, Palma-Bifani, Paulina, additional, Morley, Caroline V., additional, Tremblin, Pascal, additional, Charnay, Benjamin, additional, Vos, Johanna M., additional, Wang, Jason J., additional, Stone, Jordan M., additional, Bonnefoy, Mickaël, additional, Chauvin, Gaël, additional, Miles, Brittany E., additional, Carter, Aarynn L., additional, Lueber, Anna, additional, Helling, Christiane, additional, Sutlieff, Ben J., additional, Janson, Markus, additional, Gonzales, Eileen C., additional, Hoch, Kielan K. W., additional, Absil, Olivier, additional, Balmer, William O., additional, Boccaletti, Anthony, additional, Bonavita, Mariangela, additional, Booth, Mark, additional, Bowler, Brendan P., additional, Briesemeister, Zackery W., additional, Bryan, Marta L., additional, Calissendorff, Per, additional, Cantalloube, Faustine, additional, Chen, Christine H., additional, Choquet, Elodie, additional, Christiaens, Valentin, additional, Cugno, Gabriele, additional, Currie, Thayne, additional, Danielski, Camilla, additional, De Furio, Matthew, additional, Dupuy, Trent J., additional, Factor, Samuel M., additional, Faherty, Jacqueline K., additional, Fitzgerald, Michael P., additional, Fortney, Jonathan J., additional, Franson, Kyle, additional, Girard, Julien H., additional, Grady, Carol A., additional, Henning, Thomas, additional, Hines, Dean C., additional, Hood, Callie E., additional, Howe, Alex R., additional, Kalas, Paul, additional, Kammerer, Jens, additional, Kennedy, Grant M., additional, Kenworthy, Matthew A., additional, Kervella, Pierre, additional, Kim, Minjae, additional, Kitzmann, Daniel, additional, Kraus, Adam L., additional, Kuzuhara, Masayuki, additional, Lagage, Pierre-Olivier, additional, Lagrange, Anne-Marie, additional, Lawson, Kellen, additional, Lazzoni, Cecilia, additional, Leisenring, Jarron M., additional, Lew, Ben W. P., additional, Liu, Michael C., additional, Liu, Pengyu, additional, Llop-Sayson, Jorge, additional, Lloyd, James P., additional, Macintosh, Bruce, additional, Mâlin, Mathilde, additional, Manjavacas, Elena, additional, Marino, Sebastián, additional, Marley, Mark S., additional, Marois, Christian, additional, Martinez, Raquel A., additional, Matthews, Elisabeth C., additional, Matthews, Brenda C., additional, Mawet, Dimitri, additional, Mazoyer, Johan, additional, McElwain, Michael W., additional, Metchev, Stanimir, additional, Meyer, Michael R., additional, Millar-Blanchaer, Maxwell A., additional, Mollière, Paul, additional, Moran, Sarah E., additional, Mukherjee, Sagnick, additional, Pantin, Eric, additional, Perrin, Marshall D., additional, Pueyo, Laurent, additional, Quanz, Sascha P., additional, Quirrenbach, Andreas, additional, Ray, Shrishmoy, additional, Rebollido, Isabel, additional, Adams Redai, Jea, additional, Ren, Bin B., additional, Rickman, Emily, additional, Sallum, Steph, additional, Samland, Matthias, additional, Sargent, Benjamin, additional, Schlieder, Joshua E., additional, Stapelfeldt, Karl R., additional, Tamura, Motohide, additional, Tan, Xianyu, additional, Theissen, Christopher A., additional, Uyama, Taichi, additional, Vasist, Malavika, additional, Vigan, Arthur, additional, Wagner, Kevin, additional, Ward-Duong, Kimberly, additional, Wolff, Schuyler G., additional, Worthen, Kadin, additional, Wyatt, Mark C., additional, Ygouf, Marie, additional, Zurlo, Alice, additional, Zhang, Xi, additional, Zhang, Keming, additional, Zhang, Zhoujian, additional, and Zhou, Yifan, additional

Published

2024

20. High Spatial Resolution Thermal Infrared Integral Field Spectroscopy

Author

Briesemeister, Zackery Wyatt

Subjects

Astronomy, Astrophysics, information content analysis, instrumentation, simulation, thermal infrared

Abstract

I introduce high spatial resolution thermal infrared integral field spectroscopy to the astronomical community. The 2-5 micron sensitivity enables detection and characterization of a wide variety of exoplanets, including exoplanets detected through long-baseline astrometry, radial velocity planets on wide orbits, accreting protoplanets in nearby star-forming regions, and reflected-light planets around the nearest stars. I introduce ALES as the first thermal infrared integral field spectrograph, operating from 2.8–5 microns in multiple, low-resolution spectral modes. I used ALES to deliver the first spatially resolved thermal infrared spectra of the HD 130948BC system. I use the success of the ALES/LBTI thermal infrared integral field spectrograph to motivate the dedicated SCALES/Keck instrument, which vastly improves upon stability and sensitivity of the nascent technology to provide 10-m class diffraction limited thermal infrared low-/med-resolution spectra and imaging. I led the project to develop an end-to-end simulator for SCALES, and have used it to perform a novel information content analysis approach to identifying tolerances for SCALES. I identify the exoplanets detected using the astrometric baseline of Hipparcos, Gaia, and Roman as an age-insensitive sample of "informed" targets to remove the potential risks of non-detections and im prove the efficiency of detection and detailed imaging and spectroscopy of giant exoplanets with SCALES for a broad range of masses, separations, and ages.

Published

2022

21. Direct images and spectroscopy of a giant protoplanet driving spiral arms in MWC 758

Author

Wagner, Kevin, primary, Stone, Jordan, additional, Skemer, Andrew, additional, Ertel, Steve, additional, Dong, Ruobing, additional, Apai, Dániel, additional, Spalding, Eckhart, additional, Leisenring, Jarron, additional, Sitko, Michael, additional, Kratter, Kaitlin, additional, Barman, Travis, additional, Marley, Mark, additional, Miles, Brittany, additional, Boccaletti, Anthony, additional, Assani, Korash, additional, Bayyari, Ammar, additional, Uyama, Taichi, additional, Woodward, Charles E., additional, Hinz, Phil, additional, Briesemeister, Zackery, additional, Lawson, Kellen, additional, Ménard, François, additional, Pantin, Eric, additional, Russell, Ray W., additional, Skrutskie, Michael, additional, and Wisniewski, John, additional

Published

2023

22. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems I: High-contrast Imaging of the Exoplanet HIP 65426 b from 2 to 16 μm

Author

Carter, Aarynn L., primary, Hinkley, Sasha, additional, Kammerer, Jens, additional, Skemer, Andrew, additional, Biller, Beth A., additional, Leisenring, Jarron M., additional, Millar-Blanchaer, Maxwell A., additional, Petrus, Simon, additional, Stone, Jordan M., additional, Ward-Duong, Kimberly, additional, Wang, Jason J., additional, Girard, Julien H., additional, Hines, Dean C., additional, Perrin, Marshall D., additional, Pueyo, Laurent, additional, Balmer, William O., additional, Bonavita, Mariangela, additional, Bonnefoy, Mickael, additional, Chauvin, Gael, additional, Choquet, Elodie, additional, Christiaens, Valentin, additional, Danielski, Camilla, additional, Kennedy, Grant M., additional, Matthews, Elisabeth C., additional, Miles, Brittany E., additional, Patapis, Polychronis, additional, Ray, Shrishmoy, additional, Rickman, Emily, additional, Sallum, Steph, additional, Stapelfeldt, Karl R., additional, Whiteford, Niall, additional, Zhou, Yifan, additional, Absil, Olivier, additional, Boccaletti, Anthony, additional, Booth, Mark, additional, Bowler, Brendan P., additional, Chen, Christine H., additional, Currie, Thayne, additional, Fortney, Jonathan J., additional, Grady, Carol A., additional, Greebaum, Alexandra Z., additional, Henning, Thomas, additional, Hoch, Kielan K. W., additional, Janson, Markus, additional, Kalas, Paul, additional, Kenworthy, Matthew A., additional, Kervella, Pierre, additional, Kraus, Adam L., additional, Lagage, Pierre-Olivier, additional, Liu, Michael C., additional, Macintosh, Bruce, additional, Marino, Sebastian, additional, Marley, Mark S., additional, Marois, Christian, additional, Matthews, Brenda C., additional, Mawet, Dimitri, additional, McElwain, Michael W., additional, Metchev, Stanimir, additional, Meyer, Michael R., additional, Molliere, Paul, additional, Moran, Sarah E., additional, Morley, Caroline V., additional, Mukherjee, Sagnick, additional, Pantin, Eric, additional, Quirrenbach, Andreas, additional, Rebollido, Isabel, additional, Ren, Bin B., additional, Schneider, Glenn, additional, Vasist, Malavika, additional, Worthen, Kadin, additional, Wyatt, Mark C., additional, Briesemeister, Zackery W., additional, Bryan, Marta L., additional, Calissendorff, Per, additional, Cantalloube, Faustine, additional, Cugno, Gabriele, additional, De Furio, Matthew, additional, Dupuy, Trent J., additional, Factor, Samuel M., additional, Faherty, Jacqueline K., additional, Fitzgerald, Michael P., additional, Franson, Kyle, additional, Gonzales, Eileen C., additional, Hood, Callie E., additional, Howe, Alex R., additional, Kuzuhara, Masayuki, additional, Lagrange, Anne-Marie, additional, Lawson, Kellen, additional, Lazzoni, Cecilia, additional, Lew, Ben W. P., additional, Liu, Pengyu, additional, Llop-Sayson, Jorge, additional, Lloyd, James P., additional, Martinez, Raquel A., additional, Mazoyer, Johan, additional, Palma-Bifani, Paulina, additional, Quanz, Sascha P., additional, Redai, Jea Adams, additional, Samland, Matthias, additional, Schlieder, Joshua E., additional, Tamura, Motohide, additional, Tan, Xianyu, additional, Uyama, Taichi, additional, Vigan, Arthur, additional, Vos, Johanna M., additional, Wagner, Kevin, additional, Wolff, Schuyler G., additional, Ygouf, Marie, additional, Zhang, Xi, additional, Zhang, Keming, additional, and Zhang, Zhoujian, additional

Published

2023

23. The JWST Early-release Science Program for Direct Observations of Exoplanetary Systems II: A 1 to 20 μm Spectrum of the Planetary-mass Companion VHS 1256–1257 b

Author

Miles, Brittany E., primary, Biller, Beth A., additional, Patapis, Polychronis, additional, Worthen, Kadin, additional, Rickman, Emily, additional, Hoch, Kielan K. W., additional, Skemer, Andrew, additional, Perrin, Marshall D., additional, Whiteford, Niall, additional, Chen, Christine H., additional, Sargent, B., additional, Mukherjee, Sagnick, additional, Morley, Caroline V., additional, Moran, Sarah E., additional, Bonnefoy, Mickael, additional, Petrus, Simon, additional, Carter, Aarynn L., additional, Choquet, Elodie, additional, Hinkley, Sasha, additional, Ward-Duong, Kimberly, additional, Leisenring, Jarron M., additional, Millar-Blanchaer, Maxwell A., additional, Pueyo, Laurent, additional, Ray, Shrishmoy, additional, Sallum, Steph, additional, Stapelfeldt, Karl R., additional, Stone, Jordan M., additional, Wang, Jason J., additional, Absil, Olivier, additional, Balmer, William O., additional, Boccaletti, Anthony, additional, Bonavita, Mariangela, additional, Booth, Mark, additional, Bowler, Brendan P., additional, Chauvin, Gael, additional, Christiaens, Valentin, additional, Currie, Thayne, additional, Danielski, Camilla, additional, Fortney, Jonathan J., additional, Girard, Julien H., additional, Grady, Carol A., additional, Greenbaum, Alexandra Z., additional, Henning, Thomas, additional, Hines, Dean C., additional, Janson, Markus, additional, Kalas, Paul, additional, Kammerer, Jens, additional, Kennedy, Grant M., additional, Kenworthy, Matthew A., additional, Kervella, Pierre, additional, Lagage, Pierre-Olivier, additional, Lew, Ben W. P., additional, Liu, Michael C., additional, Macintosh, Bruce, additional, Marino, Sebastian, additional, Marley, Mark S., additional, Marois, Christian, additional, Matthews, Elisabeth C., additional, Matthews, Brenda C., additional, Mawet, Dimitri, additional, McElwain, Michael W., additional, Metchev, Stanimir, additional, Meyer, Michael R., additional, Molliere, Paul, additional, Pantin, Eric, additional, Quirrenbach, Andreas, additional, Rebollido, Isabel, additional, Ren, Bin B., additional, Schneider, Glenn, additional, Vasist, Malavika, additional, Wyatt, Mark C., additional, Zhou, Yifan, additional, Briesemeister, Zackery W., additional, Bryan, Marta L, additional, Calissendorff, Per, additional, Cantalloube, Faustine, additional, Cugno, Gabriele, additional, De Furio, Matthew, additional, Dupuy, Trent J., additional, Factor, Samuel M., additional, Faherty, Jacqueline K., additional, Fitzgerald, Michael P., additional, Franson, Kyle, additional, Gonzales, Eileen C., additional, Hood, Callie E., additional, Howe, Alex R., additional, Kraus, Adam L., additional, Kuzuhara, Masayuki, additional, Lagrange, Anne-Marie, additional, Lawson, Kellen, additional, Lazzoni, Cecilia, additional, Liu, Pengyu, additional, Llop-Sayson, Jorge, additional, Lloyd, James P., additional, Martinez, Raquel A., additional, Mazoyer, Johan, additional, Quanz, Sascha P., additional, Redai, Jea Adams, additional, Samland, Matthias, additional, Schlieder, Joshua E., additional, Tamura, Motohide, additional, Tan, Xianyu, additional, Uyama, Taichi, additional, Vigan, Arthur, additional, Vos, Johanna M., additional, Wagner, Kevin, additional, Wolff, Schuyler G., additional, Ygouf, Marie, additional, Zhang, Xi, additional, Zhang, Keming, additional, and Zhang, Zhoujian, additional

Published

2023

24. The \textit{JWST} Early Release Science Program for Direct Observations of Exoplanetary Systems III: Aperture Masking Interferometric Observations of the star HIP\,65426 at $\boldsymbol{3.8\,\rm{\mu m}}$

Author

Ray, Shrishmoy, Sallum, Steph, Hinkley, Sasha, Sivamarakrishnan, Anand, Cooper, Rachel, Kammerer, Jens, Greebaum, Alexandra Z., Thatte, Deepashri, Lazzoni, Cecilia, Tokovinin, Andrei, de Furio, Matthew, Factor, Samuel, Meyer, Michael, Stone, Jordan M., Carter, Aarynn, Biller, Beth, Skemer, Andrew, Suarez, Genaro, Leisenring, Jarron M., Perrin, Marshall D., Kraus, Adam L., Absil, Olivier, Balmer, William O., Bonnefoy, Mickael, Bryan, Marta L., Betti, Sarah K., Boccaletti, Anthony, Bonavita, Mariangela, Booth, Mark, Bowler, Brendan P., Briesemeister, Zackery W., Cantalloube, Faustine, Chauvin, Gael, Christiaens, Valentin, Cugno, Gabriele, Currie, Thayne, Danielski, Camilla, Dupuy, Trent J., Faherty, Jacqueline K., Chen, Christine H., Calissendorff, Per, Choquet, Elodie, Fitzgerald, Michael P., Fortney, Jonathan J., Franson, Kyle, Girard, Julien H., Grady, Carol A., Gonzales, Eileen C., Henning, Thomas, Hines, Dean C., Hoch, Kielan K. W., Hood, Callie E., Howe, Alex R., Janson, Markus, Kalas, Paul, Kennedy, Grant M., Kenworthy, Matthew A., Kervella, Pierre, Kitzmann, Daniel, Kuzuhara, Masayuki, Lagrange, Anne-Marie, Lagage, Pierre-Olivier, Lawson, Kellen, Lew, Ben W. P., Liu, Michael C., Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Lueber, Anna, Macintosh, Bruce, Manjavacas, Elena, Marino, Sebastian, Marley, Mark S., Marois, Christian, Martinez, Raquel A., Matthews, Brenda C., Matthews, Elisabeth C., Mawet, Dimitri, Mazoyer, Johan, McElwain, Michael W., Metchev, Stanimir, Miles, Brittany E., Millar-Blanchaer, Maxwell A., Molliere, Paul, Moran, Sarah E., Morley, Caroline V., Mukherjee, Sagnick, Palma-Bifani, Paulina, Pantin, Eric, Patapis, Polychronis, Petrus, Simon, Pueyo, Laurent, Quanz, Sascha P., Quirrenbach, Andreas, Rebollido, Isabel, Redai, Jea Adams, Ren, Bin B., Rickman, Emily, Samland, Matthias, Sargent, B. A., Schlieder, Joshua E., Schneider, Glenn, Stapelfeldt, Karl R., Sutlieff, Ben J., Tamura, Motohide, Tan, Xianyu, Theissen, Christopher A., Uyama, Taichi, Vigan, Arthur, Vasist, Malavika, Vos, Johanna M., Wagner, Kevin, Wang, Jason J., Ward-Duong, Kimberly, Whiteford, Niall, Wolff, Schuyler G., Worthen, Kadin, Wyatt, Mark C., Ygouf, Marie, Zhang, Xi, Zhang, Keming, Zhang, Zhoujian, Zhou, Yifan, Ray, Shrishmoy, Sallum, Steph, Hinkley, Sasha, Sivamarakrishnan, Anand, Cooper, Rachel, Kammerer, Jens, Greebaum, Alexandra Z., Thatte, Deepashri, Lazzoni, Cecilia, Tokovinin, Andrei, de Furio, Matthew, Factor, Samuel, Meyer, Michael, Stone, Jordan M., Carter, Aarynn, Biller, Beth, Skemer, Andrew, Suarez, Genaro, Leisenring, Jarron M., Perrin, Marshall D., Kraus, Adam L., Absil, Olivier, Balmer, William O., Bonnefoy, Mickael, Bryan, Marta L., Betti, Sarah K., Boccaletti, Anthony, Bonavita, Mariangela, Booth, Mark, Bowler, Brendan P., Briesemeister, Zackery W., Cantalloube, Faustine, Chauvin, Gael, Christiaens, Valentin, Cugno, Gabriele, Currie, Thayne, Danielski, Camilla, Dupuy, Trent J., Faherty, Jacqueline K., Chen, Christine H., Calissendorff, Per, Choquet, Elodie, Fitzgerald, Michael P., Fortney, Jonathan J., Franson, Kyle, Girard, Julien H., Grady, Carol A., Gonzales, Eileen C., Henning, Thomas, Hines, Dean C., Hoch, Kielan K. W., Hood, Callie E., Howe, Alex R., Janson, Markus, Kalas, Paul, Kennedy, Grant M., Kenworthy, Matthew A., Kervella, Pierre, Kitzmann, Daniel, Kuzuhara, Masayuki, Lagrange, Anne-Marie, Lagage, Pierre-Olivier, Lawson, Kellen, Lew, Ben W. P., Liu, Michael C., Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Lueber, Anna, Macintosh, Bruce, Manjavacas, Elena, Marino, Sebastian, Marley, Mark S., Marois, Christian, Martinez, Raquel A., Matthews, Brenda C., Matthews, Elisabeth C., Mawet, Dimitri, Mazoyer, Johan, McElwain, Michael W., Metchev, Stanimir, Miles, Brittany E., Millar-Blanchaer, Maxwell A., Molliere, Paul, Moran, Sarah E., Morley, Caroline V., Mukherjee, Sagnick, Palma-Bifani, Paulina, Pantin, Eric, Patapis, Polychronis, Petrus, Simon, Pueyo, Laurent, Quanz, Sascha P., Quirrenbach, Andreas, Rebollido, Isabel, Redai, Jea Adams, Ren, Bin B., Rickman, Emily, Samland, Matthias, Sargent, B. A., Schlieder, Joshua E., Schneider, Glenn, Stapelfeldt, Karl R., Sutlieff, Ben J., Tamura, Motohide, Tan, Xianyu, Theissen, Christopher A., Uyama, Taichi, Vigan, Arthur, Vasist, Malavika, Vos, Johanna M., Wagner, Kevin, Wang, Jason J., Ward-Duong, Kimberly, Whiteford, Niall, Wolff, Schuyler G., Worthen, Kadin, Wyatt, Mark C., Ygouf, Marie, Zhang, Xi, Zhang, Keming, Zhang, Zhoujian, and Zhou, Yifan

Abstract

We present aperture masking interferometry (AMI) observations of the star HIP 65426 at $3.8\,\rm{\mu m}$ as a part of the \textit{JWST} Direct Imaging Early Release Science (ERS) program obtained using the Near Infrared Imager and Slitless Spectrograph (NIRISS) instrument. This mode provides access to very small inner working angles (even separations slightly below the Michelson limit of ${}0.5\lambda/D$ for an interferometer), which are inaccessible with the classical inner working angles of the \textit{JWST} coronagraphs. When combined with \textit{JWST}'s unprecedented infrared sensitivity, this mode has the potential to probe a new portion of parameter space across a wide array of astronomical observations. Using this mode, we are able to achieve a contrast of $\Delta m_{F380M}{\sim }7.8$\,mag relative to the host star at a separation of ${\sim}0.07\arcsec$ but detect no additional companions interior to the known companion HIP\,65426\,b. Our observations thus rule out companions more massive than $10{-}12\,\rm{M\textsubscript{Jup}}$ at separations ${\sim}10{-}20\,\rm{au}$ from HIP\,65426, a region out of reach of ground or space-based coronagraphic imaging. These observations confirm that the AMI mode on \textit{JWST} is sensitive to planetary mass companions orbiting at the water frost line, even for more distant stars at $\sim$100\,pc. This result will allow the planning and successful execution of future observations to probe the inner regions of nearby stellar systems, opening essentially unexplored parameter space., Comment: 15 pages, 9 figures, submitted to ApJ Letters

Published

2023

25. The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems I: High Contrast Imaging of the Exoplanet HIP 65426 b from 2−16 µm

Author

Carter, Aarynn L., Hinkley, Sasha, Kammerer, Jens, Skemer, Andrew, Biller, Beth A., Leisenring, Jarron M., Millar-Blanchaer, Maxwell A., Petrus, Simon, Stone, Jordan M., Ward-Duong, Kimberly, Wang, Jason J., Girard, Julien H., Hines, Dean C., Perrin, Marshall D., Pueyo, Laurent, Balmer, William O., Bonavita, Mariangela, Bonnefoy, Mickael, Chauvin, Gael, Choquet, Elodie, Christiaens, Valentin, Danielski, Camilla, Kennedy, Grant M., Matthews, Elisabeth C., Miles, Brittany E., Patapis, Polychronis, Ray, Shrishmoy, Rickman, Emily, Sallum, Steph, Stapelfeldt, Karl R., Whiteford, Niall, Zhou, Yifan, Absil, Olivier, Boccaletti, Anthony, Booth, Mark, Bowler, Brendan P., Chen, Christine H., Currie, Thayne, Fortney, Jonathan J., Grady, Carol A., Greenbaum, Alexandra Z., Henning, Thomas, Hoch, Kielan K. W., Janson, Markus, Kalas, Paul, Kenworthy, Matthew A., Kervella, Pierre, Kraus, Adam L., Lagage, Pierre-Olivier, Liu, Michael C., Macintosh, Bruce, Marino, Sebastian, Marley, Mark S., Marois, Christian, Matthews, Brenda C., Mawet, Dimitri, Mcelwain, Michael W., Metchev, Stanimir, Meyer, Michael R., Molliere, Paul, Moran, Sarah E., Morley, Caroline V., Mukherjee, Sagnick, Pantin, Eric, Quirrenbach, Andreas, Rebollido, Isabel, Ren, Bin B., Schneider, Glenn, Vasist, Malavika, Worthen, Kadin, Wyatt, Mark C., Briesemeister, Zackery W., Bryan, Marta L., Calissendorff, Per, Cantalloube, Faustine, Cugno, Gabriele, Furio, Matthew De, Dupuy, Trent J., Factor, Samuel M., Faherty, Jacqueline K., Fitzgerald, Michael P., Franson, Kyle, Gonzales, Eileen C., Hood, Callie E., Howe, Alex R., Kuzuhara, Masayuki, Lagrange, Anne-Marie, Lawson, Kellen, Lazzoni, Cecilia, Lew, Ben W. P., Liu, Pengyu, Llop-Sayson, Jorge, Lloyd, James P., Martinez, Raquel A., Mazoyer, Johan, Quanz, Sascha P., Redai, Jea Adams, Samland, Matthias, Schlieder, Joshua E., Tamura, Motohide, Tan, Xianyu, Uyama, Taichi, Vigan, Arthur, Vos, Johanna M., Wagner, Kevin, Wolff, Schuyler G., Ygouf, Marie, Zhang, Xi, Zhang, Keming, Zhang, Zhoujian, Laboratoire d'Astrophysique de Marseille (LAM), Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'études spatiales et d'instrumentation en astrophysique = Laboratory of Space Studies and Instrumentation in Astrophysics (LESIA), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)

Subjects

[SDU.ASTR]Sciences of the Universe [physics]/Astrophysics [astro-ph]

Published

2022

26. SCALES on Keck: optical design

Author

Kupke, Renate, primary, Stelter, Richard, additional, Hasan, Amirul, additional, Surya, Arun, additional, Kain, Isabel, additional, Briesemeister, Zackery, additional, Li, Jialin, additional, Hinz, Philip, additional, Skemer, Andy, additional, Gerard, Benjamin, additional, Dillon, Daren, additional, and Ratliff, Christopher, additional

Published

2022

27. On-sky performance and results of the recently upgraded ALES integral field spectrograph

Author

Stone, Jordan M., primary, Skemer, Andrew J., additional, Hinz, Philip, additional, Ertel, Steve, additional, Briesemeister, Zackery, additional, Leisenring, Jarron, additional, Durney, Olivier, additional, Montoya, Manny M., additional, Woodward, Charles, additional, Skrutskie, Michael, additional, and Barman, Travis, additional

Published

2022

28. Design of SCALES: a 2-5 micron coronagraphic integral field spectrograph for Keck Observatory

Author

Skemer, Andrew J., primary, Stelter, Richard, additional, Sallum, Stephanie, additional, MacDonald, Nicholas, additional, Kupke, Renate, additional, Ratliff, Christopher, additional, Banyal, Ravinder, additional, Hasan, Amirul, additional, Varshney, Hari Mohan, additional, Surya, Arun, additional, Prakaesh, Ajin, additional, Sivarani, Thirupathi, additional, Sethuram, Ramya, additional, K.V., Govinda, additional, Fitzgerald, Michael P., additional, Wang, Eric, additional, Kassis, Marc, additional, Absil, Olivier, additional, Alvarez, Carlos, additional, Batalha, Natasha, additional, Boucher, Marc-André, additional, Bourgenot, Cyril, additional, Brandt, Timothy, additional, Briesemeister, Zackery, additional, de Kleer, Katherine, additional, de Pater, Imke, additional, Deich, Will, additional, Divakar, Devika, additional, Filion, Guillaume, additional, Gauvin, Étienne, additional, Gonzales, Michael, additional, Greene, Thomas, additional, Hinz, Philip, additional, Jensen-Clem, Rebecca, additional, Johnson, Christopher, additional, Kain, Isabel, additional, Kruglikov, Gabriel, additional, Lach, Mackenzie, additional, Landry, Jean-Thomas, additional, Li, Jialin, additional, Liu, Michael, additional, Lyke, James E., additional, Magnone, Kenneth, additional, Marin, Eduardo, additional, Martin, Emily, additional, Martinez, Raquel, additional, Mawet, Dimitri, additional, Miles, Brittany, additional, Sandford, Dale, additional, Sheehan, Patrick, additional, Sohn, Ji Man, additional, and Stone, Jordan, additional

Published

2022

29. L-band Integral Field Spectroscopy of the HR 8799 Planetary System

Author

Doelman, David S., primary, Stone, Jordan M., additional, Briesemeister, Zackery W., additional, Skemer, Andrew J. I., additional, Barman, Travis, additional, Brock, Laci S., additional, Hinz, Philip M., additional, Bohn, Alexander, additional, Kenworthy, Matthew, additional, Haffert, Sebastiaan Y., additional, Snik, Frans, additional, Ertel, Steve, additional, Leisenring, Jarron M., additional, Woodward, Charles E., additional, and Skrutskie, Michael F., additional

Published

2022

30. Information content approach to trade studies for SCALES

Author

Briesemeister, Zackery, primary, Sallum, Steph, additional, Skemer, Andrew, additional, and Batalha, Natasha E., additional

Published

2021

31. End-to-end simulation of the SCALES integral field spectrograph

Author

Briesemeister, Zackery, primary, Sallum, Steph, additional, Skemer, Andrew J., additional, Stelter, R. Deno, additional, Hinz, Philip, additional, and Brandt, Timothy, additional

Published

2020

32. High-contrast Thermal Infrared Spectroscopy with ALES: The 3–4 μm Spectrum of κ Andromedae b

Author

Stone, Jordan M., primary, Barman, Travis, additional, Skemer, Andrew J., additional, Briesemeister, Zackery W., additional, Brock, Laci S., additional, Hinz, Philip M., additional, Leisenring, Jarron M., additional, Woodward, Charles E., additional, Skrutskie, Michael F., additional, and Spalding, Eckhart, additional

Published

2020

33. SCALES on Keck: optical design

Author

Evans, Christopher J., Bryant, Julia J., Motohara, Kentaro, Kupke, Renate, Stelter, R. Deno, Hasan, Amirul, Surya, Arun, Kain, Isabel, Briesemeister, Zackery, Li, Jialin, Hinz, Phil, Skemer, Andrew, Gerard, Benjamin, Dillon, Daren, and Ratliff, Christopher

Published

2022

34. Design of SCALES: a 2-5 micron coronagraphic integral field spectrograph for Keck Observatory

Author

Evans, Christopher J., Bryant, Julia J., Motohara, Kentaro, Skemer, Andrew J., Stelter, R. Deno, Sallum, Stephanie, MacDonald, Nicholas, Kupke, Renate, Ratliff, Christopher, Banyal, Ravinder, Hasan, Amirul, Varshney, Hari Mohan, Surya, Arun, Prakaesh, Ajin, Thirupathi, Sivarani, Sethuram, Ramya, K.V., Govinda, Fitzgerald, Michael P., Wang, Eric, Kassis, Marc, Absil, Olivier, Alvarez, Carlos, Batalha, Natasha, Boucher, Marc-André, Bourgenot, Cyril, Brandt, Timothy, Briesemeister, Zackery, de Kleer, Katherine, de Pater, Imke, Deich, William, Divakar, Devika, Filion, Guillaume, Gauvin, Étienne, Gonzales, Michael, Greene, Thomas, Hinz, Philip, Jensen-Clem, Rebecca, Johnson, Christopher, Kain, Isabel, Kruglikov, Gabriel, Lach, Mackenzie, Landry, Jean-Thomas, Li, Jialin, Liu, Michael C., Lyke, James, Magnone, Kenneth, Marin, Eduardo, Martin, Emily, Martinez, Raquel, Mawet, Dimitri, Miles, Brittany, Sandford, Dale, Sheehan, Patrick, Sohn, Ji Man, and Stone, Jordan

Published

2022

35. High Spatial Resolution Thermal Infrared Spectroscopy with ALES: Resolved Spectra of the Benchmark Brown Dwarf Binary HD 130948BC

Author

Briesemeister, Zackery W., primary, Skemer, Andrew J., additional, Stone, Jordan M., additional, Barman, Travis S., additional, Hinz, Philip, additional, Leisenring, Jarron, additional, Skrutskie, Michael F., additional, Woodward, Charles E., additional, and Spalding, Eckhart, additional

Published

2019

36. The Planetary Systems Imager: 2-5 Micron Channel

Author

Evans, Christopher J., Simard, Luc, Takami, Hideki, Skemer, Andrew J., Stelter, Deno, Mawet, Dimitri, Fitzgerald, Michael, Mazin, Benjamin, Guyon, Olivier, Marois, Christian, Briesemeister, Zackery, Brandt, Timothy, Chilcote, Jeffrey, Delorme, Jacques-Robert, Jovanovic, Nemanja, Lu, Jessica, Millar-Blanchaer, Maxwell, Wallace, James, Vasisht, Gautam, Roberts, Lewis C., Jr., Wang, Ji, Evans, Christopher J., Simard, Luc, Takami, Hideki, Skemer, Andrew J., Stelter, Deno, Mawet, Dimitri, Fitzgerald, Michael, Mazin, Benjamin, Guyon, Olivier, Marois, Christian, Briesemeister, Zackery, Brandt, Timothy, Chilcote, Jeffrey, Delorme, Jacques-Robert, Jovanovic, Nemanja, Lu, Jessica, Millar-Blanchaer, Maxwell, Wallace, James, Vasisht, Gautam, Roberts, Lewis C., Jr., and Wang, Ji

Abstract

We summarize the red channel (2-5 micron) of the Planetary Systems Imager (PSI), a proposed second-generation instrument for the TMT. Cold exoplanets emit the majority of their light in the thermal infrared, which means these exoplanets can be detected at a more modest contrast than at other wavelengths. PSI-Red will be able to detect and characterize a wide variety of exoplanets, including radial-velocity planets on wide orbits, accreting protoplanets in nearby star-forming regions, and reflected-light planets around the nearest stars. PSI-Red will feature an imager, a low-resolution lenslet integral field spectrograph, a medium-resolution lenslet+slicer integral field spectrograph, and a fiber-fed high-resolution spectrograph.

Published

2018

37. The planetary systems imager: 2-5 micron channel

Author

Skemer, Andrew J., primary, Stelter, R. Deno, primary, Mawet, Dimitri, primary, Fitzgerald, Michael P., primary, Mazin, Benjamin A., primary, Guyon, Olivier, primary, Marois, Christian, primary, Wallace, James K., primary, Vasisht, Gautam, primary, Jovanovic, Nemanja, primary, Chilcote, Jeffrey K., primary, Delorme, Jacques-Robert, primary, Millar-Blanchaer, Maxwell A., primary, Brandt, Timothy, primary, Wang, Ji, primary, Briesemeister, Zackery, primary, Roberts, Lewis C., primary, and Lu, Jessica R., primary

Published

2018

38. MEAD: data reduction pipeline for ALES integral field spectrograph and LBTI thermal infrared calibration unit

Author

Briesemeister, Zackery, primary, Woodward, Charles E., primary, Skemer, Andrew J., primary, Stone, Jordan, primary, Hinz, Philip M., primary, Skrutskie, Michael, primary, Leisenring, Jarron, primary, Stelter, R. Deno, primary, and Barman, Travis S., primary

Published

2018

39. ALES: overview and upgrades

Author

Skemer, Andrew J., primary, Hinz, Philip M., primary, Stone, Jordan, primary, Skrutskie, Michael, primary, Woodward, Charles E., primary, Leisenring, Jarron, primary, and Briesemeister, Zackery, primary

Published

2018

40. On-sky operations with the ALES integral field spectrograph

Author

Leisenring, Jarron, primary, Hinz, Philip M., primary, Skrutskie, Michael, primary, Woodward, Charles E., primary, Skemer, Andrew J., primary, Briesemeister, Zackery, primary, Stone, Jordan, primary, and Barman, Travis, primary

Published

2018

41. Recovering simulated planet and disk signals using SCALES aperture masking.

Author

Lach, Mackenzie R., Sallum, Steph, Banyal, Ravinder, Batalha, Natalie, Blake, Geoff, Brandt, Tim, Briesemeister, Zackery, Desai, Aditi, Eisner, Josh, Fong, Wen-fai, Greene, Tom, Honda, Mitsuhiko, Kain, Isabel, Kilpatrick, Charlie, de Kleer, Katherine, Liu, Michael, Macintosh, Bruce, Martinez, Raquel, Mawet, Dimitri, and Miles, Brittany

Published

2023

42. Recovering simulated planet and disk signals using SCALES aperture masking

Author

Ruane, Garreth J., Lach, Mackenzie R., Sallum, Steph, Banyal, Ravinder, Batalha, Natalie, Blake, Geoff, Brandt, Tim, Briesemeister, Zackery, Desai, Aditi, Eisner, Josh, Fong, Wen-fai, Greene, Tom, Honda, Mitsuhiko, Kain, Isabel, Kilpatrick, Charlie, de Kleer, Katherine, Liu, Michael, Macintosh, Bruce, Martinez, Raquel, Mawet, Dimitri, Miles, Brittany, Morley, Caroline, de Pater, Imke, Powell, Diana, Sheehan, Patrick, Skemer, Andrew, Spilker, Justin, Stelter, Deno, Stone, Jordan, Surya, Arun, Thirupathi, Sivarani, Wagner, Kevin, and Zhou, Yifan

Published

2023

43. MEAD: data reduction pipeline for ALES integral field spectrograph and LBTI thermal infrared calibration unit

Author

Evans, Christopher J., Simard, Luc, Takami, Hideki, Briesemeister, Zackery, Skemer, Andrew J., Stone, Jordan M., Stelter, R. Deno, Hinz, Philip, Leisenring, Jarron, Skrutskie, Michael F., Woodward, Charles E., and Barman, Travis

Published

2018

44. ALES: overview and upgrades

Author

Evans, Christopher J., Simard, Luc, Takami, Hideki, Skemer, Andrew J., Hinz, Philip, Stone, Jordan, Skrutskie, Michael, Woodward, Charles E., Leisenring, Jarron, and Briesemeister, Zackery

Published

2018

45. SCALES on Keck: optical design.

Author

Kupke, Renate, Stelter, R. Deno, Hasan, Amirul, Surya, Arun, Kain, Isabel, Briesemeister, Zackery, Li, Jialin, Hinz, Phil, Skemer, Andrew, Gerard, Benjamin, Dillon, Daren, and Ratliff, Christopher

Published

2022

46. On-sky performance and results of the recently upgraded ALES integral field spectrograph.

Author

Stone, Jordan M., Skemer, Andrew, Hinz, Phil, Ertel, Steve, Briesemeister, Zackery, Leisenring, Jarron, Durney, Olivier, Montoya, Manny, Woodward, Charles, Skrutskie, Michael, and Barman, Travis

Published

2022

47. On-sky performance and results of the recently upgraded ALES integral field spectrograph

Author

Evans, Christopher J., Bryant, Julia J., Motohara, Kentaro, Stone, Jordan M., Skemer, Andrew, Hinz, Phil, Ertel, Steve, Briesemeister, Zackery, Leisenring, Jarron, Durney, Olivier, Montoya, Manny, Woodward, Charles, Skrutskie, Michael, and Barman, Travis

Published

2022

48. Information content approach to trade studies for SCALES

Author

Shaklan, Stuart B., Ruane, Garreth J., Briesemeister, Zackery, Sallum, Steph, Skemer, Andrew, and Batalha, Natasha

Published

2021