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1. Squeezing the quantum noise of a gravitational-wave detector below the standard quantum limit

Author

Jia, Wenxuan, Xu, Victoria, Kuns, Kevin, Nakano, Masayuki, Barsotti, Lisa, Evans, Matthew, Mavalvala, Nergis, Abbott, Rich, Abouelfettouh, Ibrahim, Adhikari, Rana, Ananyeva, Alena, Appert, Stephen, Arai, Koji, Aritomi, Naoki, Aston, Stuart, Ball, Matthew, Ballmer, Stefan, Barker, David, Berger, Beverly, Betzwieser, Joseph, Bhattacharjee, Dripta, Billingsley, Garilynn, Bode, Nina, Bonilla, Edgard, Bossilkov, Vladimir, Branch, Adam, Brooks, Aidan, Brown, Daniel, Bryant, John, Cahillane, Craig, Cao, Huy-tuong, Capote, Elenna, Chen, Yanbei, Clara, Filiberto, Collins, Josh, Compton, Camilla, Cottingham, Robert, Coyne, Dennis, Crouch, Ryan, Csizmazia, Janos, Cullen, Torrey, Dartez, Louis, Demos, Nicholas, Dohmen, Ezekiel, Driggers, Jenne, Dwyer, Sheila, Effler, Anamaria, Ejlli, Aldo, Etzel, Todd, Feicht, Jon, Frey, Raymond, Frischhertz, William, Fritschel, Peter, Frolov, Valery, Fulda, Paul, Fyffe, Michael, Ganapathy, Dhruva, Gateley, Bubba, Giaime, Joe, Giardina, Dwayne, Glanzer, Jane, Goetz, Evan, Jones, Aaron, Gras, Slawomir, Gray, Corey, Griffith, Don, Grote, Hartmut, Guidry, Tyler, Hall, Evan, Hanks, Jonathan, Hanson, Joe, Heintze, Matthew, Helmling-cornell, Adrian, Huang, Hsiang-yu, Inoue, Yuki, James, Alasdair, Jennings, Austin, Karat, Srinath, Kasprzack, Marie, Kawabe, Keita, Kijbunchoo, Nutsinee, Kissel, Jeffrey, Kontos, Antonios, Kumar, Rahul, Landry, Michael, Lantz, Brian, Laxen, Michael, Lee, Kyung-ha, Lesovsky, Madeline, Llamas, Francisco, Lormand, Marc, Loughlin, Hudsonalexander, Macas, Ronaldas, Macinnis, Myron, Makarem, Camille, Mannix, Benjaminrobert, Mansell, Georgia, Martin, Rodica, Maxwell, Nyath, Mccarrol, Garrett, Mccarthy, Richard, Mcclelland, David, Mccormick, Scott, Mcculler, Lee, Mcrae, Terry, Mera, Fernando, Merilh, Edmond, Meylahn, Fabian, Mittleman, Richard, Moraru, Dan, Moreno, Gerardo, Mould, Matthew, Mullavey, Adam, Nelson, Timothy, Neunzert, Ansel, Oberling, Jason, Ohanlon, Timothy, Osthelder, Charles, Ottaway, David, Overmier, Harry, Parker, William, Pele, Arnaud, Pham, Huyen, Pirello, Marc, Quetschke, Volker, Ramirez, Karla, Reyes, Jonathan, Richardson, Jonathan, Robinson, Mitchell, Rollins, Jameson, Romie, Janeen, Ross, Michael, Sadecki, Travis, Sanchez, Anthony, Sanchez, Eduardo, Sanchez, Luis, Savage, Richard, Schaetzl, Dean, Schiworski, Mitchell, Schnabel, Roman, Schofield, Robert, Schwartz, Eyal, Sellers, Danny, Shaffer, Thomas, Short, Ryan, Sigg, Daniel, Slagmolen, Bram, Soni, Siddharth, Sun, Ling, Tanner, David, Thomas, Michael, Thomas, Patrick, Thorne, Keith, Torrie, Calum, Traylor, Gary, Vajente, Gabriele, Vanosky, Jordan, Vecchio, Alberto, Veitch, Peter, Vibhute, Ajay, Vonreis, Erik, Warner, Jim, Weaver, Betsy, Weiss, Rainer, Whittle, Chris, Willke, Benno, Wipf, Christopher, Yamamoto, Hiro, Yu, Haocun, Zhang, Liyuan, and Zucker, Michael

Subjects
General Relativity and Quantum Cosmology, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors, Quantum Physics
Abstract

Precision measurements of space and time, like those made by the detectors of the Laser Interferometer Gravitational-wave Observatory (LIGO), are often confronted with fundamental limitations imposed by quantum mechanics. The Heisenberg uncertainty principle dictates that the position and momentum of an object cannot both be precisely measured, giving rise to an apparent limitation called the Standard Quantum Limit (SQL). Reducing quantum noise below the SQL in gravitational-wave detectors, where photons are used to continuously measure the positions of freely falling mirrors, has been an active area of research for decades. Here we show how the LIGO A+ upgrade reduced the detectors' quantum noise below the SQL by up to 3 dB while achieving a broadband sensitivity improvement, more than two decades after this possibility was first presented.

Published
2024
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2. Ion channels in critical membranes: clustering, cooperativity, and memory effects

Author

Suma, Antonio, Sigg, Daniel, Gallagher, Seamus, Gonnella, Giuseppe, and Carnevale, Vincenzo

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics, Quantitative Biology - Biomolecules
Abstract

Much progress has been made in elucidating the inner workings of voltage-gated ion channels, but less understood is the influence of lipid rafts on gating kinetics. Here we propose that state-dependent channel affinity for different lipid species provides a unified explanation for the experimentally observed behaviors of clustering, cooperativity, and hysteresis. We develop models of diffusing lipids and channels engaged in Ising-like interactions to investigate the collective behaviors driven by raft formation in critical membranes close to the demixing transition. The model channels demonstrate lipid-mediated long-range interactions, activation curve steepening, and long-term memory in ionic currents. These behaviors likely play a role in channel-mediated cellular signaling and suggest a universal mechanism for self-organization of biomolecular assemblies., Comment: 14 pages, 6 figures

Published
2024

4. Cosmic Explorer: A Submission to the NSF MPSAC ngGW Subcommittee

Author

Evans, Matthew, Corsi, Alessandra, Afle, Chaitanya, Ananyeva, Alena, Arun, K. G., Ballmer, Stefan, Bandopadhyay, Ananya, Barsotti, Lisa, Baryakhtar, Masha, Berger, Edo, Berti, Emanuele, Biscoveanu, Sylvia, Borhanian, Ssohrab, Broekgaarden, Floor, Brown, Duncan A., Cahillane, Craig, Campbell, Lorna, Chen, Hsin-Yu, Daniel, Kathryne J., Dhani, Arnab, Driggers, Jennifer C., Effler, Anamaria, Eisenstein, Robert, Fairhurst, Stephen, Feicht, Jon, Fritschel, Peter, Fulda, Paul, Gupta, Ish, Hall, Evan D., Hammond, Giles, Hannuksela, Otto A., Hansen, Hannah, Haster, Carl-Johan, Kacanja, Keisi, Kamai, Brittany, Kashyap, Rahul, Key, Joey Shapiro, Khadkikar, Sanika, Kontos, Antonios, Kuns, Kevin, Landry, Michael, Landry, Philippe, Lantz, Brian, Li, Tjonnie G. F., Lovelace, Geoffrey, Mandic, Vuk, Mansell, Georgia L., Martynov, Denys, McCuller, Lee, Miller, Andrew L., Nitz, Alexander Harvey, Owen, Benjamin J., Palomba, Cristiano, Read, Jocelyn, Phurailatpam, Hemantakumar, Reddy, Sanjay, Richardson, Jonathan, Rollins, Jameson, Romano, Joseph D., Sathyaprakash, Bangalore S., Schofield, Robert, Shoemaker, David H., Sigg, Daniel, Singh, Divya, Slagmolen, Bram, Sledge, Piper, Smith, Joshua, Soares-Santos, Marcelle, Strunk, Amber, Sun, Ling, Tanner, David, van Son, Lieke A. C., Vitale, Salvatore, Willke, Benno, Yamamoto, Hiro, and Zucker, Michael

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Gravitational-wave astronomy has revolutionized humanity's view of the universe, a revolution driven by observations that no other field can make. This white paper describes an observatory that builds on decades of investment by the National Science Foundation and that will drive discovery for decades to come: Cosmic Explorer. Major discoveries in astronomy are driven by three related improvements: better sensitivity, higher precision, and opening new observational windows. Cosmic Explorer promises all three and will deliver an order-of-magnitude greater sensitivity than LIGO. Cosmic Explorer will push the gravitational-wave frontier to almost the edge of the observable universe using technologies that have been proven by LIGO during its development. With the unprecedented sensitivity that only a new facility can deliver, Cosmic Explorer will make discoveries that cannot yet be anticipated, especially since gravitational waves are both synergistic with electromagnetic observations and can reach into regions of the universe that electromagnetic observations cannot explore. With Cosmic Explorer, scientists can use the universe as a laboratory to test the laws of physics and study the nature of matter. Cosmic Explorer allows the United States to continue its leading role in gravitational-wave science and the international network of next-generation observatories. With its extraordinary discovery potential, Cosmic Explorer will deliver revolutionary observations across astronomy, physics, and cosmology including: Black Holes and Neutron Stars Throughout Cosmic Time, Multi-Messenger Astrophysics and Dynamics of Dense Matter, New Probes of Extreme Astrophysics, Fundamental Physics and Precision Cosmology, Dark Matter and the Early Universe.

Published
2023

5. The Timing System of LIGO Discoveries

Author

Sullivan, Andrew G., Asali, Yasmeen, Márka, Zsuzsanna, Sigg, Daniel, Countryman, Stefan, Bartos, Imre, Kawabe, Keita, Pirello, Marc D., Thomas, Michael, Shaffer, Thomas J., Thorne, Keith, Laxen, Michael, Betzwieser, Joseph, Izumi, Kiwamu, Bork, Rolf, Ivanov, Alex, Barker, Dave, Adams, Carl, Clara, Filiberto, Factourovich, Maxim, and Márka, Szabolcs

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

LIGO's mission critical timing system has enabled gravitational wave and multi-messenger astrophysical discoveries as well as the rich science extracted. Achieving optimal detector sensitivity, detecting transient gravitational waves, and especially localizing gravitational wave sources, the underpinning of multi-messenger astrophysics, all require proper gravitational wave data time-stamping. Measurements of the relative arrival times of gravitational waves between different detectors allow for coherent gravitational wave detections, localization of gravitational wave sources, and the creation of skymaps. The carefully designed timing system achieves these goals by mitigating phase noise to avoid signal up-conversion and maximize gravitational wave detector sensitivity. The timing system also redundantly performs self-calibration and self-diagnostics in order to ensure reliable, extendable, and traceable time stamping. In this paper, we describe and quantify the performance of these core systems during the latest O3 scientific run of LIGO, Virgo, and KAGRA. We present results of the diagnostic checks done to verify the time-stamping for individual gravitational wave events observed during O3 as well as the timing system performance for all of O3 in LIGO Livingston and LIGO Hanford. We find that, after 3 observing runs, the LIGO timing system continues to reliably meet mission requirements of timing precision below 1 $\mu$s with a significant safety margin., Comment: 11 pages, 8 figures

Published
2023
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6. Snowmass2021 Cosmic Frontier White Paper: Future Gravitational-Wave Detector Facilities

Author

Ballmer, Stefan W., Adhikari, Rana, Badurina, Leonardo, Brown, Duncan A., Chattopadhyay, Swapan, Evans, Matthew, Fritschel, Peter, Hall, Evan, Hogan, Jason M., Jani, Karan, Kovachy, Tim, Kuns, Kevin, Schwartzman, Ariel, Sigg, Daniel, Slagmolen, Bram, Vitale, Salvatore, and Wipf, Christopher

Subjects
General Relativity and Quantum Cosmology, Astrophysics - Instrumentation and Methods for Astrophysics, High Energy Physics - Experiment, High Energy Physics - Theory
Abstract

The next generation of gravitational-wave observatories can explore a wide range of fundamental physics phenomena throughout the history of the universe. These phenomena include access to the universe's binary black hole population throughout cosmic time, to the universe's expansion history independent of the cosmic distance ladders, to stochastic gravitational-waves from early-universe phase transitions, to warped space-time in the strong-field and high-velocity limit, to the equation of state of nuclear matter at neutron star and post-merger densities, and to dark matter candidates through their interaction in extreme astrophysical environments or their interaction with the detector itself. We present the gravitational-wave detector concepts than can drive the future of gravitational-wave astrophysics. We summarize the status of the necessary technology, and the research needed to be able to build these observatories in the 2030s., Comment: 31 pages, 5 figures, contribution to Snowmass 2021

Published
2022

8. Next Generation Observatories -- Report from the Dawn VI Workshop; October 5-7 2021

Author

Shoemaker, D. H., Ballmer, Stefan, Barsuglia, Matteo, Berger, E., Berti, Emanuele, Brown, Duncan A., Chandra, Poonam, Evans, Matthew, Fang, Ke, Fong, Wen-fai, Freise, Andreas, Fritschel, Peter, Greene, Jenny, Horowitz, C. J., Kissel, Jeff, Lantz, Brian, Lasky, Paul D., Lueck, Harald, Miller, M. Coleman, Nitz, Alexander H., Ottaway, David, Peiris, Hiranya V., Punturo, Michele, Reitze, D. H., Sanders, Gary H., Sathyaprakash, B. S., Sigg, Daniel, Slagmolen, Bram, Smartt, S. J., Smith, Joshua R., Steiner, Andrew W., Troja, Eleonora, Villar, V. Ashley, Weiss, Rainer, Wolff, Sidney C., and Yeck, Jim

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The workshop Dawn VI: Next Generation Observatories took place online over three days, 5-7 October, 2021. More than 200 physicists and astronomers attended to contribute to, and learn from, a discussion of next-generation ground-based gravitational-wave detectors. The program was centered on the next generation of ground-based gravitational-wave observatories and their synergy with the greater landscape of scientific observatories of the 2030s. Cosmic Explorer (CE), a concept developed with US National Science Foundation support, was a particular focus; Einstein Telescope (ET), the European next generation concept, is an important complement and partner in forming a network. The concluding summary of the meeting expressed the sentiment that the observational science accessible to CE and ET, also in combination with data from other non-GW observatories, will stimulate a very broad community of analysts and yield insights which are exciting given the access to GWs from the entire universe. The need, and desire, for closer collaboration between ET and CE was expressed; a three-detector network is optimal for delivering much of the science. The science opportunities afforded by CE and ET are broad and compelling, impacting a wide range of disciplines in physics and high energy astrophysics. There was a consensus that CE is a concept that can deliver the promised science. A strong endorsement of Cosmic Explorer, as described in the CE Horizon Study, is a primary outcome of DAWN VI., Comment: Proceedings of the Dawn VI workshop

Published
2021

9. Laser Frequency Noise in Next Generation Gravitational-Wave Detectors

Author

Cahillane, Craig, Mansell, Georgia, and Sigg, Daniel

Subjects
Physics - Instrumentation and Detectors, General Relativity and Quantum Cosmology, Physics - Optics
Abstract

Future ground-based gravitational-wave detectors are slated to detect black hole and neutron star collisions from the entire stellar history of the universe. To achieve the designed detector sensitivities, frequency noise from the laser source must be reduced below the level achieved in current Advanced LIGO detectors. This paper reviews the laser frequency noise suppression scheme in Advanced LIGO, and quantifies the noise coupling to the gravitational-wave readout. The laser frequency noise incident on the current Advanced LIGO detectors is $8 \times 10^{-5}~\mathrm{Hz/\sqrt{Hz}}$ at $1~\mathrm{kHz}$. Future detectors will require even lower incident frequency noise levels to ensure this technical noise source does not limit sensitivity. The frequency noise requirement for a gravitational wave detector with arm lengths of $40~\mathrm{km}$ is estimated to be $7 \times 10^{-7}~\mathrm{Hz/\sqrt{Hz}}$. To reach this goal a new frequency noise suppression scheme is proposed, utilizing two input mode cleaner cavities, and the limits of this scheme are explored. Using this scheme the frequency noise requirement is met, even in pessimistic noise coupling scenarios., Comment: 17 pages, 6 Figures

Published
2021
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10. Point absorbers in Advanced LIGO

Author

Brooks, Aidan F., Vajente, Gabriele, Yamamoto, Hiro, Abbott, Rich, Adams, Carl, Adhikari, Rana X., Ananyeva, Alena, Appert, Stephen, Arai, Koji, Areeda, Joseph S., Asali, Yasmeen, Aston, Stuart M., Austin, Corey, Baer, Anne M., Ball, Matthew, Ballmer, Stefan W., Banagiri, Sharan, Barker, David, Barsotti, Lisa, Bartlett, Jeffrey, Berger, Beverly K., Betzwieser, Joseph, Bhattacharjee, Dripta, Billingsley, Garilynn, Biscans, Sebastien, Blair, Carl D., Blair, Ryan M., Bode, Nina, Booker, Phillip, Bork, Rolf, Bramley, Alyssa, Brown, Daniel D., Buikema, Aaron, Cahillane, Craig, Cannon, Kipp C., Cao, Huy Tuong, Chen, Xu, Ciobanu, Alexei A., Clara, Filiberto, Compton, Camilla, Cooper, Sam J., Corley, Kenneth R., Countryman, Stefan T., Covas, Pep B., Coyne, Dennis C., Datrier, Laurence E., Davis, Derek, Difronzo, Chiara D., Dooley, Katherine L., Driggers, Jenne C., Dupej, Peter, Dwyer, Sheila E., Effler, Anamaria, Etzel, Todd, Evans, Matthew, Evans, Tom M., Feicht, Jon, Fernandez-Galiana, Alvaro, Fritschel, Peter, Frolov, Valery V., Fulda, Paul, Fyffe, Michael, Giaime, Joe A., Giardina, Dwayne D., Godwin, Patrick, Goetz, Evan, Gras, Slawomir, Gray, Corey, Gray, Rachel, Green, Anna C., Gupta, Anchal, Gustafson, Eric K., Gustafson, Dick, Hall, Evan, Hanks, Jonathan, Hanson, Joe, Hardwick, Terra, Hasskew, Raine K., Heintze, Matthew C., Helmling-Cornell, Adrian F., Holland, Nathan A., Jones, Jeff D., Kandhasamy, Shivaraj, Karki, Sudarshan, Kasprzack, Marie, Kawabe, Keita, Kijbunchoo, Nutsinee, King, Peter J., Kissel, Jeffrey S., Kumar, Rahul, Landry, Michael, Lane, Benjamin B., Lantz, Brian, Laxen, Michael, Lecoeuche, Yannick K., Leviton, Jessica, Jian, Liu, Lormand, Marc, Lundgren, Andrew P., Macas, Ronaldas, Macinnis, Myron, Macleod, Duncan M., Mansell, Georgia L., Marka, Szabolcs, Marka, Zsuzsanna, Martynov, Denis V., Mason, Ken, Massinger, Thomas J., Matichard, Fabrice, Mavalvala, Nergis, McCarthy, Richard, McClelland, David E., McCormick, Scott, McCuller, Lee, McIver, Jessica, McRae, Terry, Mendell, Gregory, Merfeld, Kara, Merilh, Edmond L., Meylahn, Fabian, Mistry, Timesh, Mittleman, Richard, Moreno, Gerardo, Mow-Lowry, Conor M., Mozzon, Simone, Mullavey, Adam, Nelson, Timothy J., Nguyen, Philippe, Nuttall, Laura K., Oberling, Jason, Oram, Richard J., Osthelder, Charles, Ottaway, David J., Overmier, Harry, Palamos, Jordan R., Parker, William, Payne, Ethan, Pele, Arnaud, Penhorwood, Reilly, Perez, Carlos J., Pirello, Marc, Radkins, Hugh, Ramirez, Karla E., Richardson, Jonathan W., Riles, Keith, Robertson, Norna A., Rollins, Jameson G., Romel, Chandra L., Romie, Janeen H., Ross, Michael P., Ryan, Kyle, Sadecki, Travis, Sanchez, Eduardo J., Sanchez, Luis E., Tiruppatturrajamanikkam, Saravanan R., Savage, Richard L., Schaetzl, Dean, Schnabel, Roman, Schofield, Robert M., Schwartz, Eyal, Sellers, Danny, Shaffer, Thomas, Sigg, Daniel, Slagmolen, Bram J., Smith, Joshua R., Soni, Siddharth, Sorazu, Borja, Spencer, Andrew P., Strain, Ken A., Sun, Ling, Szczepanczyk, Marek J., Thomas, Michael, Thomas, Patrick, Thorne, Keith A., Toland, Karl, Torrie, Calum I., Traylor, Gary, Tse, Maggie, Urban, Alexander L., Valdes, Guillermo, Vander-Hyde, Daniel C., Veitch, Peter J., Venkateswara, Krishna, Venugopalan, Gautam, Viets, Aaron D., Vo, Thomas, Vorvick, Cheryl, Wade, Madeline, Ward, Robert L., Warner, Jim, Weaver, Betsy, Weiss, Rainer, Whittle, Chris, Willke, Benno, Wipf, Christopher C., Xiao, Liting, Yu, Hang, Yu, Haocun, Zhang, Liyuan, Zucker, Michael E., and Zweizig, John

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Small, highly absorbing points are randomly present on the surfaces of the main interferometer optics in Advanced LIGO. The resulting nano-meter scale thermo-elastic deformations and substrate lenses from these micron-scale absorbers significantly reduces the sensitivity of the interferometer directly though a reduction in the power-recycling gain and indirect interactions with the feedback control system. We review the expected surface deformation from point absorbers and provide a pedagogical description of the impact on power build-up in second generation gravitational wave detectors (dual-recycled Fabry-Perot Michelson interferometers). This analysis predicts that the power-dependent reduction in interferometer performance will significantly degrade maximum stored power by up to 50% and hence, limit GW sensitivity, but suggests system wide corrections that can be implemented in current and future GW detectors. This is particularly pressing given that future GW detectors call for an order of magnitude more stored power than currently used in Advanced LIGO in Observing Run 3. We briefly review strategies to mitigate the effects of point absorbers in current and future GW wave detectors to maximize the success of these enterprises., Comment: 49 pages, 16 figures. -V2: typographical errors in equations B9 and B10 were corrected (stray exponent of "h" was removed). Caption of Figure 9 was corrected to indicate that 40mW was used for absorption in the model, not 10mW as incorrectly indicated in V1

Published
2021
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11. A particle-based Ising model

Author

Novinger, Quentin, Suma, Antonio, Sigg, Daniel, Gonnella, Giuseppe, and Carnevale, Vincenzo

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We characterize equilibrium properties and relaxation dynamics of a two-dimensional lattice containing, at each site, two particles connected by a double-well potential (dumbbell). Dumbbells are oriented in the orthogonal direction with respect to the lattice plane and interact with each other through a Lennard-Jones potential truncated at the nearest neighbor distance. We show that the system's equilibrium properties are accurately described by a two-dimensional Ising model with an appropriate coupling constant. Moreover, we characterize the coarsening kinetics by calculating the cluster size as a function of time and compare the results with Monte Carlo simulations based on Glauber or reactive dynamics rate constants.

Published
2020
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12. The US Program in Ground-Based Gravitational Wave Science: Contribution from the LIGO Laboratory

Author

Reitze, David, Abbott, Rich, Adams, Carl, Adhikari, Rana, Aggarwal, Nancy, Anand, Shreya, Ananyeva, Alena, Anderson, Stuart, Appert, Stephen, Arai, Koji, Araya, Melody, Aston, Stuart, Barayoga, Juan, Barish, Barry, Barker, David, Barsotti, Lisa, Bartlett, Jeffrey, Betzwieser, Joseph, Billingsley, GariLynn, Biscans, Sebastien, Biscoveanu, Sylvia, Blackburn, Kent, Blair, Carl, Blair, Ryan, Bockelman, Brian, Bork, Rolf, Bramley, Alyssa, Brooks, Aidan, Brunett, Sharon, Buikema, Aaron, Cahillane, Craig, Callister, Thomas, Carruthers, Tom, Clara, Filiberto, Corban, Paul, Coughlin, Michael, Couvares, Peter, Cowart, Matthew, Coyne, Dennis, Demos, Nicholas, Donovan, Fred, Driggers, Jenne, Dwyer, Sheila, Effler, Anamaria, Eisenstein, Robert, Etzel, Todd, Evans, Matthew, Evans, Tom, Feicht, Jon, Fernandez-Galiana, Alvaro, Fritschel, Peter, Frolov, Valery, Fyffe, Michael, Gateley, Bubba, Giaime, Joe, Giardina, Dwayne, Goetz, Evan, Gossan, Sarah, Gras, Slawomir, Grassia, Philippe, Gray, Corey, Gupta, Anchal, Gustafson, Eric, Guthman, Les, Hall, Evan, Hanks, Jonathan, Hanson, Joe, Hasskew, Raine, Haster, Carl-Johan, Heintze, Matthew, Hernandez, Edgar, Holt, Kathy, Huang, Yiwen, Huynh-Dinh, Tien, Isi, Max, Jones, Jeff, Kamai, Brittany, Kanner, Jonah, Kasprzack, Marie, Katsavounidis, Erik, Katzman, William, Kawabe, Keita, King, Peter, Kissel, Jeffrey, Kondrashov, Veronica, Korth, William, Kozak, Dan, Kumar, Rahul, Landry, Michael, Lane, Benjamin, Lanza, Robert, Laxen, Michael, Lazzarini, Albert, Lecoeuche, Yannick, Libbrecht, Ken, Lo, Ka-Lok, London, Lionel, Lormand, Marc, MacInnis, Myron, Mansell, Georgia, Markowitz, Aaron, Maros, Ed, Marx, Jay, Mason, Ken, Massinger, Thomas, Matichard, Fabrice, Mavalvala, Nergis, McCarthy, Richard, McCormick, Scott, McCuller, Lee, McIver, Jessica, Mendell, Gregory, Merilh, Edmond, Meshkov, Syd, Mittleman, Richard, Moraru, Dan, Moreno, Gerardo, Mullavey, Adam, Nelson, Timothy, Ng, Kwan-Yeung, Noh, Minkyun, O'Reilly, Brian, Oberling, Jason, Oram, Richard, Osthelder, Charles, Overmier, Harry, Parker, William, Pedraza, Mike, Pele, Arnaud, Perez, Carlos, Petterson, Danielle, Pirello, Marc, Raab, Fred, Radkins, Hugh, Mohapatra, Satyanarayan Ray Pitambar, Richardson, Jonathan, Robertson, Norna, Rollins, Jameson, Romel, Chandra, Romie, Janeen, Ryan, Kyle, Sadecki, Travis, Sanchez, Eduardo, Sanchez, Luis, Savage, Richard, Schaetzl, Dean, Sellers, Danny, Shaffer, Thomas, Shoemaker, David, Sigg, Daniel, Strunk, Amber, Sudhir, Vivishek, Sun, Ling, Tao, Duo, Taylor, Robert, Thomas, Michael, Thomas, Patrick, Thorne, Keith, Torrie, Calum, Traylor, Gary, Trudeau, Randy, Tse, Maggie, Vajente, Gabriele, Vass, Steve, Venugopalan, Gautam, Vitale, Salvatore, Vorvick, Cheryl, Wade, Andrew, Wallace, Larry, Warner, Jim, Weaver, Betsy, Weinstein, Alan, Weiss, Rainer, Whitcomb, Stan, Whittle, Chris, Willis, Joshua, Wipf, Christopher, Xiao, Sophia, Yamamoto, Hiro, Yu, Hang, Yu, Haocun, Zhang, Liyuan, Zucker, Michael, and Zweizig, John

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology
Abstract

Recent gravitational-wave observations from the LIGO and Virgo observatories have brought a sense of great excitement to scientists and citizens the world over. Since September 2015,10 binary black hole coalescences and one binary neutron star coalescence have been observed. They have provided remarkable, revolutionary insight into the "gravitational Universe" and have greatly extended the field of multi-messenger astronomy. At present, Advanced LIGO can see binary black hole coalescences out to redshift 0.6 and binary neutron star coalescences to redshift 0.05. This probes only a very small fraction of the volume of the observable Universe. However, current technologies can be extended to construct "$3^\mathrm{rd}$ Generation" (3G) gravitational-wave observatories that would extend our reach to the very edge of the observable Universe. The event rates over such a large volume would be in the hundreds of thousands per year (i.e.tens per hour). Such 3G detectors would have a 10-fold improvement in strain sensitivity over the current generation of instruments, yielding signal-to-noise ratios of 1000 for events like those already seen. Several concepts are being studied for which engineering studies and reliable cost estimates will be developed in the next 5 years., Comment: For the 2020 Astro decadal

Published
2019

13. Is the free energy landscape informative about transition rates? Lessons from the kinetic Ising model

Author

Sigg, Daniel, Voelz, Vincent A., and Carnevale, Vincenzo

Subjects
Condensed Matter - Statistical Mechanics
Abstract

An oft-used concept in modeling macromolecules is the free energy landscape, obtained by coarse-graining a vast number of microstates into a low-dimensional mesh of mesostates. If the landscape contains two or more local minima (macrostates),one can compute global rate constants provided the dynamics of the dividing barrier regions are known. Here we compared experimental rate constants between ordered states in a kinetic Ising model with rates calculated from a coarse-grained master equation derived from the microcanonical ensemble. The coarse-grained macroscopic rate constants were roughly 50 % larger than experiment across a range of environmental constraints, suggesting a systematic impediment of configurational progress on the microscopic scale that is specific to the structure of the Ising model. The error in coarse-graining lay with the calculation of the diffusion coefficient rather than with the shape of the free energy landscape, as ensemble- and time-averaged estimates of the latter were indistinguishable. Fluctuation analysis in the form of Nyquist theorem also failed to substantially improve the value of the effective diffusion coefficient, suggesting a failure of the fluctuation-dissipation theorem. These findings from the Ising model raises doubts over the validity of the free energy landscape approach in calculating absolute transition rates for more complex systems such as proteins., Comment: 25 pages, 12 figures

Published
2018

14. Prospects for detecting gravitational waves at 5 Hz with ground-based detectors

Author

Yu, Hang, Martynov, Denis, Vitale, Salvatore, Evans, Matthew, Barr, Bryan, Carbone, Ludovico, Dooley, Katherine L., Freise, Andreas, Fulda, Paul, Grote, Hartmut, Hammond, Giles, Hild, Stefan, Hough, James, Huttner, Sabina, Mow-Lowry, Conor, Rowan, Sheila, Shoemaker, David, Sigg, Daniel, and Sorazu, Borja

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology
Abstract

We propose an upgrade to Advanced LIGO (aLIGO), named LIGO-LF, that focuses on improving the sensitivity in the 5-30 Hz low-frequency band, and we explore the upgrade's astrophysical applications. We present a comprehensive study of the detector's technical noises and show that with technologies currently under development, such as interferometrically sensed seismometers and balanced-homodyne readout, LIGO-LF can reach the fundamental limits set by quantum and thermal noises down to 5 Hz. These technologies are also directly applicable to the future generation of detectors. We go on to consider this upgrade's implications for the astrophysical output of an aLIGO-like detector. A single LIGO-LF can detect mergers of stellar-mass black holes (BHs) out to a redshift of z~6 and would be sensitive to intermediate-mass black holes up to 2000 M_\odot. The detection rate of merging BHs will increase by a factor of 18 compared to aLIGO. Additionally, for a given source the chirp mass and total mass can be constrained 2 times better than aLIGO and the effective spin 3-5 times better than aLIGO. Furthermore, LIGO-LF enables the localization of coalescing binary neutron stars with an uncertainty solid angle 10 times smaller than that of aLIGO at 30 Hz, and 4 times smaller when the entire signal is used. LIGO-LF also significantly enhances the probability of detecting other astrophysical phenomena including the tidal excitation of neutron star r-modes and the gravitational memory effects., Comment: 5 pages, 6 figures, published in PRL

Published
2017
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17. Observation of Parametric Instability in Advanced LIGO

Author

Evans, Matthew, Gras, Slawek, Fritschel, Peter, Miller, John, Barsotti, Lisa, Martynov, Denis, Brooks, Aidan, Coyne, Dennis, Abbott, Rich, Adhikari, Rana, Arai, Koji, Bork, Rolf, Kells, Bill, Rollins, Jameson, Smith-Lefebvre, Nicolas, Vajente, Gabriele, Yamamoto, Hiroaki, Derosa, Ryan, Effler, Anamaria, Kokeyama, Keiko, Betzweiser, Joseph, Frolov, Valera, Mullavey, Adam, Dwyer, Sheila, Izumi, Kiwamu, Kawabe, Keita, Sigg, Daniel, Ballmer, Stefan, Massinger, Thomas J., Staley, Alexa, Mueller, Chris, Grote, Hartmut, Ward, Robert, King, Eleanor, Thorne, Keith, Thomas, Michael, Adams, Carl, Aston, Stuart, Romie, Janeen, Pele, Arnaud, Heinze, Matthew, Blair, David, Ju, Li, and Zhao, Chunnong

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Optics
Abstract

Parametric instabilities have long been studied as a potentially limiting effect in high-power interferometric gravitational wave detectors. Until now, however, these instabilities have never been observed in a kilometer-scale interferometer. In this work we describe the first observation of parametric instability in an Advanced LIGO detector, and the means by which it has been removed as a barrier to progress.

Published
2015
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18. The α2δ-1 subunit remodels CaV1.2 voltage sensors and allows Ca2+ influx at physiological membrane potentials.

Author

Savalli, Nicoletta, Pantazis, Antonios, Sigg, Daniel, Weiss, James N, Neely, Alan, and Olcese, Riccardo

Subjects
Cell Membrane, Humans, Calcium, Calcium Channels, L-Type, Protein Subunits, Membrane Potentials, Models, Molecular, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Physiology, Medical Physiology
Abstract

Excitation-evoked calcium influx across cellular membranes is strictly controlled by voltage-gated calcium channels (CaV), which possess four distinct voltage-sensing domains (VSDs) that direct the opening of a central pore. The energetic interactions between the VSDs and the pore are critical for tuning the channel's voltage dependence. The accessory α2δ-1 subunit is known to facilitate CaV1.2 voltage-dependent activation, but the underlying mechanism is unknown. In this study, using voltage clamp fluorometry, we track the activation of the four individual VSDs in a human L-type CaV1.2 channel consisting of α1C and β3 subunits. We find that, without α2δ-1, the channel complex displays a right-shifted voltage dependence such that currents mainly develop at nonphysiological membrane potentials because of very weak VSD-pore interactions. The presence of α2δ-1 facilitates channel activation by increasing the voltage sensitivity (i.e., the effective charge) of VSDs I-III. Moreover, the α2δ-1 subunit also makes VSDs I-III more efficient at opening the channel by increasing the coupling energy between VSDs II and III and the pore, thus allowing Ca influx within the range of physiological membrane potentials.

Published
2016

20. Prospects for doubling the range of Advanced LIGO

Author

Miller, John, Barsotti, Lisa, Vitale, Salvatore, Fritschel, Peter, Sigg, Daniel, and Evans, Matthew

Subjects
General Relativity and Quantum Cosmology, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

In the coming years, the gravitational wave community will be optimizing detector performance for a variety of astrophysical sources that make competing demands on the detector sensitivity in different frequency bands. In this paper we describe a number of technologies that are being developed as anticipated upgrades to the Advanced LIGO detector, and quantify the potential sensitivity improvement they offer. Specifically, we consider squeezed light injection for reduction of quantum noise, detector design and materials changes which reduce thermal noise, and mirrors with significantly increased mass. We explore how each of these technologies impacts the detection of the most promising gravitational wave sources, and suggest an effective progression of upgrades which culminate in a factor of two broadband sensitivity improvement.

Published
2014
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21. A Gravitational Wave Detector with Cosmological Reach

Author

Dwyer, Sheila E., Sigg, Daniel, Ballmer, Stefan, Barsotti, Lisa, Mavalvala, Nergis, and Evans, Matthew

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Twenty years ago, construction began on the Laser Interferometer Gravitational-wave Observatory (LIGO). Advanced LIGO, with a factor of ten better design sensitivity than Initial LIGO, will begin taking data this year, and should soon make detections a monthly occurrence. While Advanced LIGO promises to make first detections of gravitational waves from the nearby universe, an additional factor of ten increase in sensitivity would put exciting science targets within reach by providing observations of binary black hole inspirals throughout most of the history of star formation, and high signal to noise observations of nearby events. Design studies for future detectors to date rely on significant technological advances that are futuristic and risky. In this paper we propose a different direction. We resurrect the idea of a using longer arm lengths coupled with largely proven technologies. Since the major noise sources that limit gravitational wave detectors do not scale trivially with the length of the detector, we study their impact and find that 40~km arm lengths are nearly optimal, and can incorporate currently available technologies to detect gravitational wave sources at cosmological distances $(z \gtrsim 7)$.

Published
2014
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22. Functional heterogeneity of the four voltage sensors of a human L-type calcium channel

Author

Pantazis, Antonios, Savalli, Nicoletta, Sigg, Daniel, Neely, Alan, and Olcese, Riccardo

Subjects
Neurosciences, Underpinning research, 1.1 Normal biological development and functioning, Allosteric Regulation, Amino Acid Sequence, Calcium Channels, L-Type, Humans, Kinetics, Molecular Sequence Data, Sequence Homology, Amino Acid, fluorometry, Ca2+ entry, allostery, gating mechanism, CaV1.2
Abstract

Excitation-evoked Ca(2+) influx is the fastest and most ubiquitous chemical trigger for cellular processes, including neurotransmitter release, muscle contraction, and gene expression. The voltage dependence and timing of Ca(2+) entry are thought to be functions of voltage-gated calcium (CaV) channels composed of a central pore regulated by four nonidentical voltage-sensing domains (VSDs I-IV). Currently, the individual voltage dependence and the contribution to pore opening of each VSD remain largely unknown. Using an optical approach (voltage-clamp fluorometry) to track the movement of the individual voltage sensors, we discovered that the four VSDs of CaV1.2 channels undergo voltage-evoked conformational rearrangements, each exhibiting distinct voltage- and time-dependent properties over a wide range of potentials and kinetics. The voltage dependence and fast kinetic components in the activation of VSDs II and III were compatible with the ionic current properties, suggesting that these voltage sensors are involved in CaV1.2 activation. This view is supported by an obligatory model, in which activation of VSDs II and III is necessary to open the pore. When these data were interpreted in view of an allosteric model, where pore opening is intrinsically independent but biased by VSD activation, VSDs II and III were each found to supply ∼50 meV (∼2 kT), amounting to ∼85% of the total energy, toward stabilizing the open state, with a smaller contribution from VSD I (∼16 meV). VSD IV did not appear to participate in channel opening.

Published
2014

23. Arm-length stabilisation for interferometric gravitational-wave detectors using frequency-doubled auxiliary lasers

Author

Mullavey, Adam J., Slagmolen, Bram J. J., Miller, John, Evans, Matthew, Fritschel, Peter, Sigg, Daniel, Waldman, Sam J., Shaddock, Daniel A., and McClelland, David E.

Subjects
Physics - Instrumentation and Detectors, General Relativity and Quantum Cosmology
Abstract

Residual motion of the arm cavity mirrors is expected to prove one of the principal impediments to systematic lock acquisition in advanced gravitational-wave interferometers. We present a technique which overcomes this problem by employing auxiliary lasers at twice the fundamental measurement frequency to pre-stabilise the arm cavities' lengths. Applying this approach, we reduce the apparent length noise of a 1.3 m long, independently suspended Fabry-Perot cavity to 30 pm rms and successfully transfer longitudinal control of the system from the auxiliary laser to the measurement laser.

Published
2011
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24. Angular instability due to radiation pressure in the LIGO gravitational wave detector

Author

Hirose, Eiichi, Kawabe, Keita, Sigg, Daniel, Adhikari, Rana, and Saulson, Peter R.

Subjects
General Relativity and Quantum Cosmology
Abstract

We observed the effect of radiation pressure on the angular sensing and control system of the Laser Interferometer Gravitational-Wave Observatory (LIGO) interferometer's core optics at LIGO Hanford Observatory. This is the first measurement of this effect in a complete gravitational wave interferometer. Only one of the two angular modes survives with feedback control, since the other mode is suppressed when the control gain is sufficiently large. We developed a mathematical model to understand the physics of the system. This model matches well the dynamics that we observe., Comment: Submitted to Applied Optics

Published
2009
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26. Optical dilution and feedback cooling of a gram-scale oscillator to 6.9 mK

Author

Corbitt, Thomas, Wipf, Christopher, Bodiya, Timothy, Ottaway, David, Sigg, Daniel, Smith, Nicolas, Whitcomb, Stanley, and Mavalvala, Nergis

Subjects
Quantum Physics
Abstract

We report on use of a radiation pressure induced restoring force, the optical spring effect, to optically dilute the mechanical damping of a 1 gram suspended mirror, which is then cooled by active feedback (cold damping). Optical dilution relaxes the limit on cooling imposed by mechanical losses, allowing the oscillator mode to reach a minimum temperature of 6.9 mK, a factor of ~40000 below the environmental temperature. A further advantage of the optical spring effect is that it can increase the number of oscillations before decoherence by several orders of magnitude. In the present experiment we infer an increase in the dynamical lifetime of the state by a factor of ~200.

Published
2007
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30. Regulation of K+ Flow by a Ring of Negative Charges in the Outer Pore of BKCa Channels. Part I

Author

Haug, Trude, Sigg, Daniel, Ciani, Sergio, Toro, Ligia, Stefani, Enrico, and Olcese, Riccardo

Subjects
Genetics, Amino Acid Sequence, Animals, Aspartic Acid, Female, Large-Conductance Calcium-Activated Potassium Channel alpha Subunits, Molecular Sequence Data, Mutation, Potassium, Potassium Channels, Xenopus laevis, MaxiK channel, conduction, permeation, surface charge, Markov model, Physiology, Medical Physiology
Abstract

The pore region of the majority of K+ channels contains the highly conserved GYGD sequence, known as the K+ channel signature sequence, where the GYG is critical for K+ selectivity (Heginbotham, L., T. Abramson, and R. MacKinnon. 1992. Science. 258:1152-1155). Exchanging the aspartate residue with asparagine in this sequence abolishes ionic conductance of the Shaker K+ channel (D447N) (Hurst, R.S., L. Toro, and E. Stefani. 1996. FEBS Lett. 388:59-65). In contrast, we found that the corresponding mutation (D292N) in the pore forming alpha subunit (hSlo) of the voltage- and Ca(2+)-activated K+ channel (BKCa, MaxiK) did not prevent conduction but reduced single channel conductance. We have investigated the role of outer pore negative charges in ion conduction (this paper) and channel gating (Haug, T., R. Olcese, T. Ligia, and E. Stefani. 2004. J. Gen Physiol. 124:185-197). In symmetrical 120 mM [K+], the D292N mutation reduced the outward single channel conductance by approximately 40% and nearly abolished inward K+ flow (outward rectification). This rectification was partially relieved by increasing the external K+ concentration to 700 mM. Small inward currents were resolved by introducing an additional mutation (R207Q) that greatly increases the open probability of the channel. A four-state multi-ion pore model that incorporates the effects of surface charge was used to simulate the essential properties of channel conduction. The conduction properties of the mutant channel (D292N) could be predicted by a simple approximately 8.5-fold reduction of the surface charge density without altering any other parameter. These results indicate that the aspartate residue in the BKCa pore plays a key role in conduction and suggest that the pore structure is not affected by the mutation. We speculate that the negative charge strongly accumulates K+ in the outer vestibule close to the selectivity filter, thus increasing the rate of ion entry into the pore.

Published
2004

34. PO-03-039 INVESTIGATION OF PULSED FIELD AND RADIOFREQUENCY ABLATION LESION DEPTH IN THE INFARCTED PORCINE LV

Author

Krahn, Philippa R., primary, Lombergar, Peter, additional, Kos, Bor, additional, Casas, Maria Terricabras, additional, Escartin, Terenz, additional, Barry, Jennifer, additional, Štublar, Jernej, additional, Coulombe, Nicolas, additional, Mattison, Lars M., additional, Sigg, Daniel, additional, Verma, Atul, additional, Miklavcic, Damijan, additional, and Wright, Graham, additional

Published
2023
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36. PO-03-089 COMPARING RADIOFREQUENCY ABLATION (RFA) AND PULSED FIELD ABLATION (PFA) SCAR HOMOGENIZATION IN A CHRONIC SWINE MODEL OF INFARCTION USING 3D LATE GADOLINIUM ENHANCEMENT (LGE) MRI

Author

Escartin, Terenz, primary, Casas, Maria Terricabras, additional, Krahn, Philippa R., additional, Barry, Jennifer, additional, Larsen, Melissa, additional, Coulombe, Nicolas, additional, Mattison, Lars M., additional, Lombergar, Peter, additional, Štublar, Jernej, additional, Kos, Bor, additional, Sigg, Daniel, additional, Miklavcic, Damijan, additional, Verma, Atul, additional, and Wright, Graham, additional

Published
2023
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37. Characterization of Experimentally Observed Complex Interplay between Pulse Duration, Electrical Field Strength, and Cell Orientation on Electroporation Outcome Using a Time-Dependent Nonlinear Numerical Model

Author

Scuderi, Maria, primary, Dermol-Černe, Janja, additional, Batista Napotnik, Tina Batista, additional, Chaigne, Sebastien, additional, Bernus, Olivier, additional, Benoist, David, additional, Sigg, Daniel C., additional, Rems, Lea, additional, and Miklavčič, Damijan, additional

Published
2023
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38. A Conducting State with Properties of a Slow Inactivated State in a Shaker K+ Channel Mutant

Author

Olcese, Riccardo, Sigg, Daniel, Latorre, Ramon, Bezanilla, Francisco, and Stefani, Enrico

Subjects
Brain Disorders, Animals, Artifacts, Electric Conductivity, Ion Channel Gating, Kinetics, Membrane Potentials, Mutagenesis, Oocytes, Patch-Clamp Techniques, Potassium Channels, Probability, Shaker Superfamily of Potassium Channels, Xenopus laevis, gating current, slow inactivation, C/P-type inactivation, nonstationary noise analysis, Physiology, Medical Physiology
Abstract

In Shaker K(+) channel, the amino terminus deletion Delta6-46 removes fast inactivation (N-type) unmasking a slow inactivation process. In Shaker Delta6-46 (Sh-IR) background, two additional mutations (T449V-I470C) remove slow inactivation, producing a noninactivating channel. However, despite the fact that Sh-IR-T449V-I470C mutant channels remain conductive, prolonged depolarizations (1 min, 0 mV) produce a shift of the QV curve by about -30 mV, suggesting that the channels still undergo the conformational changes typical of slow inactivation. For depolarizations longer than 50 ms, the tail currents measured during repolarization to -90 mV display a slow component that increases in amplitude as the duration of the depolarizing pulse increases. We found that the slow development of the QV shift had a counterpart in the amplitude of the slow component of the ionic tail current that is not present in Sh-IR. During long depolarizations, the time course of both the increase in the slow component of the tail current and the change in voltage dependence of the charge movement could be well fitted by exponential functions with identical time constant of 459 ms. Single channel recordings revealed that after prolonged depolarizations, the channels remain conductive for long periods after membrane repolarization. Nonstationary autocovariance analysis performed on macroscopic current in the T449V-I470C mutant confirmed that a novel open state appears with increasing prepulse depolarization time. These observations suggest that in the mutant studied, a new open state becomes progressively populated during long depolarizations (>50 ms). An appealing interpretation of these results is that the new open state of the mutant channel corresponds to a slow inactivated state of Sh-IR that became conductive.

Published
2001

45. Microcanonical coarse-graining of the kinetic Ising model.

Author

Sigg, Daniel, Voelz, Vincent A., and Carnevale, Vincenzo

Subjects
*MONTE Carlo method, *ISING model, *ACTIVATION energy, *JUMP processes, *MEMORY loss, *DIFFUSION coefficients
Abstract

We propose a scheme for coarse-graining the dynamics of the 2-D kinetic Ising model onto the microcanonical ensemble. At subcritical temperatures, 2-D and higher-dimensional Ising lattices possess two basins of attraction separated by a free energy barrier. Projecting onto the microcanonical ensemble has the advantage that the dependence of the crossing rate constant on environmental conditions can be obtained from a single Monte Carlo trajectory. Using various numerical methods, we computed the forward rate constants of coarse-grained representations of the Ising model and compared them with the true value obtained from brute force simulation. While coarse-graining preserves detailed balance, the computed rate constants for barrier heights between 5 kT and 9 kT were consistently 50% larger than the true value. Markovianity testing revealed loss of dynamical memory, which we propose accounts for coarse-graining error. Committor analysis did not support the alternative hypothesis that microcanonical projection is incompatible with an optimal reaction coordinate. The correct crossing rate constant was obtained by spectrally decomposing the diffusion coefficient near the free energy barrier and selecting the slowest (reactive) component. The spectral method also yielded the correct rate constant in the 3-D Ising lattice, where coarse-graining error was 6% and memory effects were diminished. We conclude that microcanonical coarse-graining supplemented by spectral analysis of short-term barrier fluctuations provides a comprehensive kinetic description of barrier crossing in a non-inertial continuous-time jump process. [ABSTRACT FROM AUTHOR]

Published
2020
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47. CA-534-03 INVESTIGATING PULSED FIELD (PFA) VS RADIOFREQUENCY ABLATION (RFA) LESION CHARACTERISTICS IN AN IN VIVO HEALTHY PORCINE LEFT VENTRICLE (LV) USING 3D LGE AND NATIVE T1W MAGNETIC RESONANCE IMAGING (MRI)

Author

Escartin, Terenz, primary, Terricabras, Maria, additional, Krahn, Philippa R.P., additional, Barry, Jennifer, additional, Larsen, Melissa, additional, Coulombe, Nicolas, additional, Mattison, Lars M., additional, Kos, Bor, additional, Kranjc, Matej, additional, Stublar, Jernej, additional, Sigg, Daniel, additional, Stewart, Mark T., additional, Miklavcic, Damijan, additional, Verma, Atul, additional, and Wright, Graham, additional

Published
2022
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48. PO-622-01 CHRONIC PULSED FIELD ABLATION LESIONS IN THE PORCINE LV: DOSE DEPENDENCE AND CORRELATION WITH LATE GADOLINIUM ENHANCEMENT MRI

Author

Krahn, Philippa R.P., primary, Terricabras, Maria, additional, Escartin, Terenz, additional, Barry, Jennifer, additional, Coulombe, Nicolas, additional, Mattison, Lars M., additional, Sigg, Daniel, additional, Stewart, Mark T., additional, Stublar, Jernej, additional, Kos, Bor, additional, Miklavcic, Damijan, additional, Verma, Atul, additional, and Wright, Graham, additional

Published
2022
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