Konrad Lehnert

  • Senator Hickenlooper (center) talks to JILA's instrument shop head Kyle Thatcher (left) and JILA instrument maker Hans Green (right).
    Senator Hickenlooper Discusses Quantum Computing's Role in Boosting Colorado's Economy at Latest JILA Visit
    In a recent significant visit to JILA, a joint institute established by the National Institute of Standards and Technology (NIST) and the University of Colorado Boulder, U.S. Senator John Hickenlooper discussed the transformative potential of quantum computing on Colorado's economy, job industry, and educational sector. The visit underscored the state's growing prominence in the quantum technology landscape.
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  • JILA and NIST Fellow Konrad Lehnert
    JILA and NIST Fellow Konrad Lehnert receives a prestigious MURI award
    JILA and NIST Fellow, along with University of Colorado Professor Konrad Lehnert will be leading a project through the Department of Defense (DoD) competitive Multidisciplinary University Research Initiative (MURI) Program. 蜜桃传媒破解版下载 was matched only by the Massachusetts Institute of Technology in receiving three MURI awards.
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  • The transducer developed by the Lehnert and Regal research groups uses side-banded cooling to convert microwave photons to optical photons
    Connecting Microwave and Optical Frequencies through the Ground State of a Micromechanical Object
    The process of developing a quantum computer has seen significant progress in the past 20 years. Quantum computers are designed to solve complex problems using the intricacies of quantum mechanics. These computers can also communicate with each other by using entangled photons (photons that have connected quantum states). As a result of this entanglement, quantum communication can provide a more secure form of communication, and has been seen as a promising method for the future of a more private and faster internet.
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  • The transducer developed by the Lehnert and Regal research groups uses side-banded cooling to convert microwave photons to optical photons
    New Research Reveals A More Robust Qubit System, even with a Stronger Laser Light
    Qubits are a basic building block for quantum computers, but they鈥檙e also notoriously fragile鈥攖ricky to observe without erasing their information in the process. Now, new research from 蜜桃传媒破解版下载 and the National Institute of Standards and Technology (NIST) may be a leap forward for handling qubits with a light touch. In the study, a team of physicists demonstrated that it could read out the signals from a type of qubit called a superconducting qubit using laser light鈥攁nd without destroying the qubit at the same time.
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  • A representation of time oscillations in the EDM due to interactions with the dark matter particles around the EDM
    Wiggles in Time: The Search for Dark Matter Continues
    In a new paper published in Physical Review Letters, JILA and NIST Fellows Eric Cornell, Jun Ye, and Konrad Lehnert developed a method for measuring a potential dark matter candidate, known as an axion-like particle. Axion-like particles are a potential class of dark matter particle which could explain some aspects of galactic structure. This work is also a result of collaboration with Victor Flambaum who is a leading theorist studying possible violations of fundamental symmetries.
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  • An Image of the HAYSTAC system
    Scientists develop new, faster method for seeking out dark matter
    For nearly a century, scientists have worked to unravel the mystery of dark matter鈥攁n elusive substance that spreads through the universe and likely makes up much of its mass, but has so far proven impossible to detect in experiments. Now, a team of researchers have used an innovative technique called 鈥渜uantum squeezing鈥 to dramatically speed up the search for one candidate for dark matter in the lab.
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  • JILA and NIST Fellow Konrad Lehnert
    Konrad Lehnert听named as a 2020 AAAS fellow
    Konrad Lehnert becomes the 6th JILA Fellow elected as an American Association for the Advancement of Science (AAAS) Fellow by the Council of the AAAS.
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  • The Lehnert Lab has been able to measure the movement of a quantum drum so precisely that the Heisenberg uncertainty principle is on full display.
    Drumming to the Heisenberg Beat
    Mechanical oscillators are crucial to developing quantum computers and quantum networks, but they have to fight against noise. Measuring the quantum movement of the oscillator not only reduces its noise, it perfectly displays the Heisenberg uncertainty principle.
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  • Photograph of JILA Fellows Dr. Tom Perkins and Dr. Konrad Lehnert.
    Perkins and Lehnert Awarded Department of Commerce Medals
    JILA Fellows Dr. Tom Perkins and Dr. Konrad Lehnert both received medals from the Department of Commerce last night at the Ronald Reagan Amphitheater in Washington, D.C. Dr. Perkins received the Gold Medal, which is the highest honorary award given by the United States Department of Commerce, or DOC. Perkins was recognized for creating the world鈥檚 best atomic force microscope tailored to biological measurements. This device can 鈥済rab鈥 onto biological molecules, such as proteins, and measure the tiny forces involved in their folding and unfolding.
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  • Microwave signals are translated to optical signals (red) through a microscopic quantum drum (center). Recently, JILA researchers used strategic measurements of the microwave and optical signals to significantly reduced the added noise.
    Quiet Drumming: Reducing Noise for the Quantum Internet
    Quantum computers are set to revolutionize society. With their expansive power and speed, quantum computers could reduce today鈥檚 impossibly complex problems, like artificial intelligence and weather forecasts, to mere algorithms. But as revolutionary as the quantum computer will be, its promises will be stifled without the right connections. Peter Burns, a JILA graduate student in the Lehnert/Regal lab, likens this stifle to a world without Wi-Fi.听
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