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More Than Spins: Exploring Uncharted Territory In Quantum Devices


More Than Spins: Exploring Uncharted Territory In Quantum Devices

A spin (blue ball with arrow) interacts with the surrounding bosons described by non-Gaussian states – a new computational method to accurately describe what happens inside quantum devices CREDIT: Jiří Minář

Many of today’s quantum devices rely on collections of qubits, also called spins. These quantum bits have only two energy levels, the ‘0’ and the ‘1’. However, spins in real devices also interact with light and vibrations known as bosons, greatly complicating calculations. In a new publication in Physical Review Letters, researchers in Amsterdam demonstrate a way to describe spin-boson systems and use this to efficiently configure quantum devices in a desired state.

Quantum devices use the quirky behaviour of quantum particles to perform tasks that go beyond what ‘classical’ machines can do, including quantum computing, simulation, sensing, communication and metrology. These devices can take many forms, such as a collection of superconducting circuits, or a lattice of atoms or ions held in place by lasers or electric fields.

Regardless of their physical realisation, quantum devices are typically described in simplified terms as a collection of interacting two-level quantum bits or spins. However, these spins also interact with other things in their surroundings, such as light in superconducting circuits or oscillations in the lattice of atoms or ions. Particles of light (photons) and vibrational modes of a lattice (phonons) are examples of bosons.

Unlike spins, which have only two possible energy levels (‘0’ or ‘1’), the number of levels for each boson is infinite. Consequently, there are very few computational tools for describing spins coupled to bosons. In their new work, physicists Liam Bond, Arghavan Safavi-Naini and Jiří Minář of the University of Amsterdam, QuSoft and Centrum Wiskunde & Informatica work around this limitation by describing systems composed of spins and bosons using so-called non-Gaussian states. Each non-Gaussian state is a combination (a superposition) of much simpler Gaussian states.

Each blue-red pattern in the image above represents a possible quantum state of the spin-boson system. “A Gaussian state would look like a plain red circle, without any interesting blue-red patterns,” explains PhD candidate Liam Bond. An example of a Gaussian state is laser light, in which all light-waves are perfectly in sync. “If we take many of these Gaussian states and start overlapping them (so that they’re in a superposition), these beautifully intricate patterns emerge. We were particularly excited because these non-Gaussian states allow us to retain a lot of the powerful mathematical machinery that exists for Gaussian states, whilst enabling us to describe a far more diverse set of quantum states.”

Bond continues: “There are so many possible patterns that classical computers often struggle to compute and process them. Instead, in this publication we use a method that identifies the most important of these patterns and ignores the others. This lets us study these quantum systems, and design new ways of preparing interesting quantum states.” 

The new approach can be exploited to efficiently prepare quantum states in a way that outperforms other traditionally used protocols. “Fast quantum state preparation might be useful for a wide range of applications, such as quantum simulation or even quantum error correction,” notes Bond. The researchers also demonstrate that they can use non-Gaussian states to prepare ‘critical’ quantum states which correspond to a system undergoing a phase transition. In addition to fundamental interest, such states can greatly enhance the sensitivity of quantum sensors.

While these results are very encouraging, they are only a first step towards more ambitious goals. So far, the method has been demonstrated for a single spin. A natural, but challenging extension is to include many spins and many bosonic modes at the same time. A parallel direction is to account for the effects of the environment disturbing the spin-boson systems. Both of these approaches are under active development.

The post More Than Spins: Exploring Uncharted Territory In Quantum Devices first appeared on The South Caucasus News.


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PalBint: I’ve lost track of the number of times we have been told CIA Chief William Burns is on the verge of brokering another ceasefire deal. It’s just an excuse to make the Biden administration look like the good guys. In reality neither the US nor Israel wants an end to Gaza genocide.


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— PalMedia (@PalBint) May 24, 2024

The post PalBint: I’ve lost track of the number of times we have been told CIA Chief William Burns is on the verge of brokering another ceasefire deal. It’s just an excuse to make the Biden administration look like the good guys. In reality neither the US nor Israel wants an end to Gaza genocide. first appeared on JOSSICA – The Journal of the Open Source Strategic Intelligence and Counterintelligence Analysis.


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The post Ex-CIA officer accused of spying for China expected to plead guilty in a Honolulu courtroom first appeared on JOSSICA – The Journal of the Open Source Strategic Intelligence and Counterintelligence Analysis.


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Putin questions whether Zelensky is ‘legitimate’ Ukraine leader for peace talks – MSN


The post Putin questions whether Zelensky is ‘legitimate’ Ukraine leader for peace talks – MSN first appeared on JOSSICA – The Journal of the Open Source Strategic Intelligence and Counterintelligence Analysis.


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@visegrad24: Huge march of pro-EU protesters heading toward the Georgian Ministry of Interior to demand the release of protesters arrested in previous weeks. The protesters chant that the Georgian people want a future with the EU, not Russia 🇬🇪🇪🇺


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— Visegrád 24 (@visegrad24) May 24, 2024

The post @visegrad24: Huge march of pro-EU protesters heading toward the Georgian Ministry of Interior to demand the release of protesters arrested in previous weeks. The protesters chant that the Georgian people want a future with the EU, not Russia 🇬🇪🇪🇺 first appeared on JOSSICA – The Journal of the Open Source Strategic Intelligence and Counterintelligence Analysis.


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The post @mikenov: Michael Novakhov’s favorite articles on Inoreader inoreader.com/stream/user/10… first appeared on Links – The News And Times.


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Resignation of IDF Intel Chief Over Oct. 7 Failures Turns Hourglass for Other Israeli Defense Leaders – Israel News – Haaretz


34362.jpg?precrop=2400,1395,x0,y0&height

  Haaretz

The post Resignation of IDF Intel Chief Over Oct. 7 Failures Turns Hourglass for Other Israeli Defense Leaders – Israel News – Haaretz first appeared on The Ocean Avenue News.


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Defense Secretary Lloyd Austin to return to Walter Reed for procedure


Defense Secretary Lloyd Austin is returning to Walter Reed Army Medical Center on Friday evening for a “minimally invasive follow-up non-surgical procedure.” CBS News national security correspondent David Martin has more from the Pentagon.

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