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36 results on '"Keefe, George A."'

1. High-fidelity gates in a transmon using bath engineering for passive leakage reset

Author

Thorbeck, Ted, McDonald, Alexander, Lanes, O., Blair, John, Keefe, George, Stabile, Adam A., Royer, Baptiste, Govia, Luke C. G., and Blais, Alexandre

Subjects
Quantum Physics
Abstract

Leakage, the occupation of any state not used in the computation, is one of the of the most devastating errors in quantum error correction. Transmons, the most common superconducting qubits, are weakly anharmonic multilevel systems, and are thus prone to this type of error. Here we demonstrate a device which reduces the lifetimes of the leakage states in the transmon by three orders of magnitude, while protecting the qubit lifetime and the single-qubit gate fidelties. To do this we attach a qubit through an on-chip seventh-order Chebyshev filter to a cold resistor. The filter is engineered such that the leakage transitions are in its passband, while the qubit transition is in its stopband. Dissipation through the filter reduces the lifetime of the transmon's $f$ state, the lowest energy leakage state, by three orders of magnitude to 33 ns, while simultaneously keeping the qubit lifetime to greater than 100 $\mu$s. Even though the $f$ state is transiently populated during a single qubit gate, no negative effect of the filter is detected with errors per gate approaching 1e-4. Modelling the filter as coupled linear harmonic oscillators, our theoretical analysis of the device corroborate our experimental findings. This leakage reduction unit turns leakage errors into errors within the qubit subspace that are correctable with traditional quantum error correction. We demonstrate the operation of the filter as leakage reduction unit in a mock-up of a single-qubit quantum error correcting cycle, showing that the filter increases the seepage rate back to the qubit subspace., Comment: 14 pages, 9 figures

Published
2024

2. Error mitigation with stabilized noise in superconducting quantum processors

Author

Kim, Youngseok, Govia, Luke C. G., Dane, Andrew, Berg, Ewout van den, Zajac, David M., Mitchell, Bradley, Liu, Yinyu, Balakrishnan, Karthik, Keefe, George, Stabile, Adam, Pritchett, Emily, Stehlik, Jiri, and Kandala, Abhinav

Subjects
Quantum Physics
Abstract

Pre-fault tolerant quantum computers have already demonstrated the ability to estimate observable values accurately, at a scale beyond brute-force classical computation. This has been enabled by error mitigation techniques that often rely on a representative model on the device noise. However, learning and maintaining these models is complicated by fluctuations in the noise over unpredictable time scales, for instance, arising from resonant interactions between superconducting qubits and defect two-level systems (TLS). Such interactions affect the stability and uniformity of device performance as a whole, but also affect the noise model accuracy, leading to incorrect observable estimation. Here, we experimentally demonstrate that tuning of the qubit-TLS interactions helps reduce noise instabilities and consequently enables more reliable error-mitigation performance. These experiments provide a controlled platform for studying the performance of error mitigation in the presence of quasi-static noise. We anticipate that the capabilities introduced here will be crucial for the exploration of quantum applications on solid-state processors at non-trivial scales., Comment: 8 pages, 4 figures (13 pages, 8 figures for supplementary material), reference numbering has been fixed at v2

Published
2024

3. Demonstration of RIP gates in a quantum processor with negligible transverse coupling

Author

Kumph, Muir, Raftery, James, Finck, Aaron, Blair, John, Carniol, April, Carnevale, Santino, Keefe, George A, Arena, Vincent, Hall, Shawn, McKay, David, and Stehlik, George

Subjects
Quantum Physics
Abstract

Here, we report the experimental demonstration of a novel multi-mode linear bus interferometer (LBI) coupler in a six qubit superconducting quantum processor. A key feature of this coupler is an engineered multi-path interference which eliminates transverse coupling between qubits over a wide frequency range. This negligible static coupling is achieved without any flux bias tuning, and greatly reduces the impact of qubit frequency collisions. We achieve good simultaneous single qubit gate operation and low ZZ rates (below 600 Hz) across the device without staggering qubit frequencies, even in cases where qubits are as close as 10 MHz. Multi-qubit interactions are still possible through the coupler using microwave-driven resonator induced phase gates, which we utilize to demonstrate simultaneous two qubit gates with fidelities as high as 99.4%

Published
2024

4. High-fidelity superconducting quantum processors via laser-annealing of transmon qubits

Author

Zhang, Eric J., Srinivasan, Srikanth, Sundaresan, Neereja, Bogorin, Daniela F., Martin, Yves, Hertzberg, Jared B., Timmerwilke, John, Pritchett, Emily J., Yau, Jeng-Bang, Wang, Cindy, Landers, William, Lewandowski, Eric P., Narasgond, Adinath, Rosenblatt, Sami, Keefe, George A., Lauer, Isaac, Rothwell, Mary Beth, McClure, Douglas T., Dial, Oliver E., Orcutt, Jason S., Brink, Markus, and Chow, Jerry M.

Subjects
Quantum Physics
Abstract

Scaling the number of qubits while maintaining high-fidelity quantum gates remains a key challenge for quantum computing. Presently, superconducting quantum processors with >50-qubits are actively available. For such systems, fixed-frequency transmons are attractive due to their long coherence and noise immunity. However, scaling fixed-frequency architectures proves challenging due to precise relative frequency requirements. Here we employ laser annealing to selectively tune transmon qubits into desired frequency patterns. Statistics over hundreds of annealed qubits demonstrate an empirical tuning precision of 18.5 MHz, with no measurable impact on qubit coherence. We quantify gate error statistics on a tuned 65-qubit processor, with median two-qubit gate fidelity of 98.7%. Baseline tuning statistics yield a frequency-equivalent resistance precision of 4.7 MHz, sufficient for high-yield scaling beyond 1000-qubit levels. Moving forward, we anticipate selective laser annealing to play a central role in scaling fixed-frequency architectures., Comment: 9 pages, 8 figures, Supplementary Information

Published
2020

5. Demonstration of quantum volume 64 on a superconducting quantum computing system

Author

Jurcevic, Petar, Javadi-Abhari, Ali, Bishop, Lev S., Lauer, Isaac, Bogorin, Daniela F., Brink, Markus, Capelluto, Lauren, Günlük, Oktay, Itoko, Toshinari, Kanazawa, Naoki, Kandala, Abhinav, Keefe, George A., Krsulich, Kevin, Landers, William, Lewandowski, Eric P., McClure, Douglas T., Nannicini, Giacomo, Narasgond, Adinath, Nayfeh, Hasan M., Pritchett, Emily, Rothwell, Mary Beth, Srinivasan, Srikanth, Sundaresan, Neereja, Wang, Cindy, Wei, Ken X., Wood, Christopher J., Yau, Jeng-Bang, Zhang, Eric J., Dial, Oliver E., Chow, Jerry M., and Gambetta, Jay M.

Subjects
Quantum Physics
Abstract

We improve the quality of quantum circuits on superconducting quantum computing systems, as measured by the quantum volume, with a combination of dynamical decoupling, compiler optimizations, shorter two-qubit gates, and excited state promoted readout. This result shows that the path to larger quantum volume systems requires the simultaneous increase of coherence, control gate fidelities, measurement fidelities, and smarter software which takes into account hardware details, thereby demonstrating the need to continue to co-design the software and hardware stack for the foreseeable future., Comment: Fixed typo in author list. Added references [38], [49] and [52]

Published
2020
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6. Tunable Superconducting Qubits with Flux-Independent Coherence

Author

Hutchings, M. D., Hertzberg, Jared B., Liu, Yebin, Bronn, Nicholas T., Keefe, George A., Chow, Jerry M., and Plourde, B. L. T.

Subjects
Condensed Matter - Superconductivity, Quantum Physics
Abstract

We have studied the impact of low-frequency magnetic flux noise upon superconducting transmon qubits with various levels of tunability. We find that qubits with weaker tunability exhibit dephasing that is less sensitive to flux noise. This insight was used to fabricate qubits where dephasing due to flux noise was suppressed below other dephasing sources, leading to flux-independent dephasing times T2* ~ 15 us over a tunable range of ~340 MHz. Such tunable qubits have the potential to create high-fidelity, fault-tolerant qubit gates and fundamentally improve scalability for a quantum processor.

Published
2017
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7. Time-multiplexed amplification in a hybrid-less and coil-less Josephson parametric converter

Author

Abdo, Baleegh, Chavez-Garcia, Jose M., Brink, Markus, Keefe, George, and Chow, Jerry M.

Subjects
Condensed Matter - Superconductivity
Abstract

Josephson parametric converters (JPCs) are superconducting devices capable of performing nondegenerate, three-wave mixing in the microwave domain without losses. One drawback limiting their use in scalable quantum architectures is the large footprint of the auxiliary circuit needed for their operation, in particular, the use of off-chip, bulky, broadband hybrids and magnetic coils. Here, we realize a JPC which eliminates the need for these bulky components. The pump drive and flux bias are applied in the new device through an on-chip, lossless, three-port power divider and on-chip flux line, respectively. We show that the new design considerably simplifies the circuit and reduces the footprint of the device while maintaining a comparable performance to state-of-the-art JPCs. Furthermore, we exploit the tunable bandwidth property of the JPC and the added capability of applying alternating currents to the flux line in order to switch the resonance frequencies of the device, hence demonstrating time-multiplexed amplification of microwave tones that are separated by more than the dynamical bandwidth of the amplifier. Such a measurement technique can potentially serve to perform time-multiplexed, high-fidelity readout of superconducting qubits.

Published
2016
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8. Entanglement of two superconducting qubits in a waveguide cavity via monochromatic two-photon excitation

Author

Poletto, S., Gambetta, Jay M., Merkel, Seth T., Smolin, John A., Chow, Jerry M., Corcoles, A. D., Keefe, George A., Rothwell, Mary B., Rozen, J. R., Abraham, D. W., Rigetti, Chad, and Steffen, M.

Subjects
Quantum Physics, Condensed Matter - Superconductivity
Abstract

We report a system where fixed interactions between non-computational levels make bright the otherwise forbidden two-photon 00 --> 11 transition. The system is formed by hand selection and assembly of two discrete component transmon-style superconducting qubits inside a rectangular microwave cavity. The application of a monochromatic drive tuned to this transition induces two-photon Rabi-like oscillations between the ground and doubly-excited states via the Bell basis. The system therefore allows all-microwave two-qubit universal control with the same techniques and hardware required for single qubit control. We report Ramsey-like and spin echo sequences with the generated Bell states, and measure a two-qubit gate fidelity of 90% (unconstrained) and 86% (maximum likelihood estimator)., Comment: 5 pages, 4 figures. V2: add supplemental material about the Schrieffer-Wolff transformation

Published
2012
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9. Efficient measurement of quantum gate error by interleaved randomized benchmarking

Author

Magesan, Easwar, Gambetta, Jay M., Johnson, B. R., Ryan, Colm A., Chow, Jerry M., Merkel, Seth T., da Silva, Marcus P., Keefe, George A., Rothwell, Mary B., Ohki, Thomas A., Ketchen, Mark B., and Steffen, M.

Subjects
Quantum Physics
Abstract

We describe a scalable experimental protocol for obtaining estimates of the error rate of individual quantum computational gates. This protocol, in which random Clifford gates are interleaved between a gate of interest, provides a bounded estimate of the average error of the gate under test so long as the average variation of the noise affecting the full set of Clifford gates is small. This technique takes into account both state preparation and measurement errors and is scalable in the number of qubits. We apply this protocol to a superconducting qubit system and find gate errors that compare favorably with the gate errors extracted via quantum process tomography., Comment: 5 pages, 2 figures, published version

Published
2012
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10. Superconducting qubit in waveguide cavity with coherence time approaching 0.1ms

Author

Rigetti, Chad, Poletto, Stefano, Gambetta, Jay M., Plourde, B. L. T., Chow, Jerry M., Corcoles, A. D., Smolin, John A., Merkel, Seth T., Rozen, J. R., Keefe, George A., Rothwell, Mary B., Ketchen, Mark B., and Steffen, M.

Subjects
Quantum Physics
Abstract

We report a superconducting artificial atom with an observed quantum coherence time of T2*=95us and energy relaxation time T1=70us. The system consists of a single Josephson junction transmon qubit embedded in an otherwise empty copper waveguide cavity whose lowest eigenmode is dispersively coupled to the qubit transition. We attribute the factor of four increase in the coherence quality factor relative to previous reports to device modifications aimed at reducing qubit dephasing from residual cavity photons. This simple device holds great promise as a robust and easily produced artificial quantum system whose intrinsic coherence properties are sufficient to allow tests of quantum error correction.

Published
2012
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11. Complete universal quantum gate set approaching fault-tolerant thresholds with superconducting qubits

Author

Chow, Jerry M., Gambetta, Jay M., Corcoles, A. D., Merkel, Seth T., Smolin, John A., Rigetti, Chad, Poletto, S., Keefe, George A., Rothwell, Mary B., Rozen, J. R., Ketchen, Mark B., and Steffen, M.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We use quantum process tomography to characterize a full universal set of all-microwave gates on two superconducting single-frequency single-junction transmon qubits. All extracted gate fidelities, including those for Clifford group generators, single-qubit pi/4 and pi/8 rotations, and a two-qubit controlled-NOT, exceed 95% (98%), without (with) accounting for state preparation and measurement errors. Furthermore, we introduce a process map representation in the Pauli basis which is visually efficient and informative. This high-fidelity gate set serves as another critical building block towards scalable architectures of superconducting qubits for error correction schemes., Comment: 4 figures, 2 tables plus supplementary material

Published
2012
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12. Protecting superconducting qubits from external sources of loss and heat

Author

Córcoles, Antonio D., Chow, Jerry M., Gambetta, Jay M., Rigetti, Chad, Rozen, J. R., Keefe, George A., Rothwell, Mary Beth, Ketchen, Mark B., and Steffen, M.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

We characterize a superconducting qubit before and after embedding it along with its package in an absorptive medium. We observe a drastic improvement in the effective qubit temperature and over a tenfold improvement in the relaxation time up to 5.7 $\mu$s. Our results suggest the presence of external radiation inside the cryogenic apparatus can be a limiting factor for both qubit initialization and coherence. We infer from simple calculations that relaxation is not limited by thermal photons in the sample prior to embedding, but by dissipation arising from quasiparticle generation., Comment: 3 figures

Published
2011
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13. A simple all-microwave entangling gate for fixed-frequency superconducting qubits

Author

Chow, Jerry M., Corcoles, A. D., Gambetta, Jay M., Rigetti, Chad, Johnson, B. R., Smolin, John A., Rozen, J. R., Keefe, George A., Rothwell, Mary B., Ketchen, Mark B., and Steffen, M.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We demonstrate an all-microwave two-qubit gate on superconducting qubits which are fixed in frequency at optimal bias points. The gate requires no additional subcircuitry and is tunable via the amplitude of microwave irradiation on one qubit at the transition frequency of the other. We use the gate to generate entangled states with a maximal extracted concurrence of 0.88 and quantum process tomography reveals a gate fidelity of 81%.

Published
2011
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14. High coherence hybrid superconducting qubit

Author

Steffen, Matthias, Kumar, Shwetank, DiVincenzo, David P., Rozen, J. R., Keefe, George A., Rothwell, Mary Beth, and Ketchen, Mark B.

Subjects
Condensed Matter - Superconductivity, Quantum Physics
Abstract

We measure the coherence of a new superconducting qubit, the {\em low-impedance flux qubit}, finding $T_2^* \sim T_1 \sim 1.5\mu$s. It is a three-junction flux qubit, but the ratio of junction critical currents is chosen to make the qubit's potential have a single well form. The low impedance of its large shunting capacitance protects it from decoherence. This qubit has a moderate anharmonicity, whose sign is reversed compared with all other popular qubit designs. The qubit is capacitively coupled to a high-Q resonator in a $\lambda/2$ configuration, which permits the qubit's state to be read out dispersively.

Published
2010
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15. Readout for Phase Qubits without Josephson Junctions

Author

Steffen, Matthias, Kumar, Shwetank, DiVincenzo, David, Keefe, George, Ketchen, Mark, Rothwell, Mary Beth, and Rozen, Jim

Subjects
Condensed Matter - Superconductivity
Abstract

We present a novel readout scheme for phase qubits which eliminates the read-out SQUID so that the entire qubit and measurement circuitry only requires a single Josephson junction. Our scheme capacitively couples the phase qubit directly to a transmission line and detects its state after the measurement pulse by determining a frequency shift observable in the forward scattering parameter of the readout microwaves. This readout is extendable to multiple phase qubits coupled to a common readout line and can in principle be used for other flux biased qubits having two quasi-stable readout configurations.

Published
2010
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16. High-performance superconducting quantum processors via laser annealing of transmon qubits

Author

Zhang, Eric J., primary, Srinivasan, Srikanth, additional, Sundaresan, Neereja, additional, Bogorin, Daniela F., additional, Martin, Yves, additional, Hertzberg, Jared B., additional, Timmerwilke, John, additional, Pritchett, Emily J., additional, Yau, Jeng-Bang, additional, Wang, Cindy, additional, Landers, William, additional, Lewandowski, Eric P., additional, Narasgond, Adinath, additional, Rosenblatt, Sami, additional, Keefe, George A., additional, Lauer, Isaac, additional, Rothwell, Mary Beth, additional, McClure, Douglas T., additional, Dial, Oliver E., additional, Orcutt, Jason S., additional, Brink, Markus, additional, and Chow, Jerry M., additional

Published
2022
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17. Demonstration of quantum volume 64 on a superconducting quantum computing system

Author

Jurcevic, Petar, primary, Javadi-Abhari, Ali, additional, Bishop, Lev S, additional, Lauer, Isaac, additional, Bogorin, Daniela F, additional, Brink, Markus, additional, Capelluto, Lauren, additional, Günlük, Oktay, additional, Itoko, Toshinari, additional, Kanazawa, Naoki, additional, Kandala, Abhinav, additional, Keefe, George A, additional, Krsulich, Kevin, additional, Landers, William, additional, Lewandowski, Eric P, additional, McClure, Douglas T, additional, Nannicini, Giacomo, additional, Narasgond, Adinath, additional, Nayfeh, Hasan M, additional, Pritchett, Emily, additional, Rothwell, Mary Beth, additional, Srinivasan, Srikanth, additional, Sundaresan, Neereja, additional, Wang, Cindy, additional, Wei, Ken X, additional, Wood, Christopher J, additional, Yau, Jeng-Bang, additional, Zhang, Eric J, additional, Dial, Oliver E, additional, Chow, Jerry M, additional, and Gambetta, Jay M, additional

Published
2021
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19. High-Tc SQUID gradiometer for mobile magnetic anomaly detection

Author

Clem, Ted R., Overway, David J., Purpura, John W., Bono, John T., Koch, Roger H., Rozen, James R., Keefe, George A., Willen, Scott, and Mohling, Robert A.

Subjects
High temperature superconductivity -- Observations, Superconducting quantum interference devices -- Design and construction, Business, Electronics, Electronics and electrical industries
Abstract

The development and evaluation of a prototype nitrogen-cooled high-Tc SQUID gradiometer for use in magnetic anomaly detection of underwater targets, is described.

Published
2001

21. Protecting superconducting qubits from external sources of loss and heat

Author

C��rcoles, Antonio D., Chow, Jerry M., Gambetta, Jay M., Rigetti, Chad, Rozen, J. R., Keefe, George A., Rothwell, Mary Beth, Ketchen, Mark B., and Steffen, M.

Subjects
Superconductivity (cond-mat.supr-con), Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), FOS: Physical sciences, Quantum Physics (quant-ph)
Abstract

We characterize a superconducting qubit before and after embedding it along with its package in an absorptive medium. We observe a drastic improvement in the effective qubit temperature and over a tenfold improvement in the relaxation time up to 5.7 $\mu$s. Our results suggest the presence of external radiation inside the cryogenic apparatus can be a limiting factor for both qubit initialization and coherence. We infer from simple calculations that relaxation is not limited by thermal photons in the sample prior to embedding, but by dissipation arising from quasiparticle generation., Comment: 3 figures

Published
2011

22. Improved superconducting qubit coherence using titanium nitride

Author

Chang, Josephine B., primary, Vissers, Michael R., additional, Córcoles, Antonio D., additional, Sandberg, Martin, additional, Gao, Jiansong, additional, Abraham, David W., additional, Chow, Jerry M., additional, Gambetta, Jay M., additional, Beth Rothwell, Mary, additional, Keefe, George A., additional, Steffen, Matthias, additional, and Pappas, David P., additional

Published
2013
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24. Superconducting qubit in a waveguide cavity with a coherence time approaching 0.1 ms

Author

Rigetti, Chad, primary, Gambetta, Jay M., additional, Poletto, Stefano, additional, Plourde, B. L. T., additional, Chow, Jerry M., additional, Córcoles, A. D., additional, Smolin, John A., additional, Merkel, Seth T., additional, Rozen, J. R., additional, Keefe, George A., additional, Rothwell, Mary B., additional, Ketchen, Mark B., additional, and Steffen, M., additional

Published
2012
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27. Protecting superconducting qubits from radiation

Author

Córcoles, Antonio D., primary, Chow, Jerry M., additional, Gambetta, Jay M., additional, Rigetti, Chad, additional, Rozen, J. R., additional, Keefe, George A., additional, Beth Rothwell, Mary, additional, Ketchen, Mark B., additional, and Steffen, M., additional

Published
2011
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29. High-Coherence Hybrid Superconducting Qubit

Author

Steffen, Matthias, primary, Kumar, Shwetank, additional, DiVincenzo, David P., additional, Rozen, J. R., additional, Keefe, George A., additional, Rothwell, Mary Beth, additional, and Ketchen, Mark B., additional

Published
2010
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31. Quantum information storage using tunable flux qubits

Author

Steffen, Matthias, primary, Brito, Frederico, additional, DiVincenzo, David, additional, Farinelli, Matthew, additional, Keefe, George, additional, Ketchen, Mark, additional, Kumar, Shwetank, additional, Milliken, Frank, additional, Rothwell, Mary Beth, additional, Rozen, Jim, additional, and Koch, Roger H, additional

Published
2010
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35. High-T[sub c] SQUID Gradiometer for Mobile Magnetic Anomaly Detection.

Author

Clem, Ted R., Overway, David J., Purpura, John W., Bono, John T., Koch, Roger H., Rozen, James R., Keefe, George A., Willen, Scott, and Mohling, Robert A.

Subjects
SUPERCONDUCTING quantum interference devices, MAGNETIC anomalies
Abstract

Evaluates a high-temperature superconducting quantum interference device gradiometer for magnetic anomaly detection. Prototype design; Performance in mobile operations; Sensor configuration; Approaches for improved performance.

Published
2001
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36. Sustainable Architecture with High Quality Green Coatings.

Author

Keefe, George C.

Subjects
SUSTAINABLE architecture, RENEWABLE energy standards, CONSTRUCTION materials, VOLATILE organic compounds, ECONOMICS
Abstract

The article discusses three main elements of sustainable architecture including sustainable energy use, sustainable building materials and waste management. Topics discussed include green coating systems that allows cost saving when complied with Energy Star program and Leadership in Energy and Environmental Design (LEED) Solar Reflectance Index (SRI) standards, sustainable building materials such as material with lower volatile organic compounds (VOC), and waste management in construction.

Published
2014

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