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Light Dark Matter Axion Detection With Static Electric Field

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A detection scheme is explored for light dark matter, such as axion dark matter or dark photon dark matter, using a Paul ion trap system. We first demonstrate that a qubit, constructed from

(PDF) Axion and hidden photon dark matter detection with multilayer ...

近日,物理学系杨峤立研究员在物理期刊《The European Physical Journal C》上发表论文《Light dark matter axion-wind detection with a static electric field》 (Eur.Phys.J.C 83 Dark matter axions can cause an oscillating electric current by an external magnetic field that subsequently induces a small magnetic field. This axion-induced field can be detected Einstein–Maxwell-axion theory: dyon solution with regular electric field zu Verbundenen Objekten Alle ausklappen

Axion detection with precision frequency metrology

Cosmological axions/axion-like particles can compose a significant part of dark matter; however, the uncertainty of their mass is large. Here, we propose to search the axions using a cylindrical The detection concept follows the Sikivie haloscope principle, where Dark Matter axions convert into photons within a resonator immersed in a magnetic field.

We explore the axionic dark matter search sensitivity with a narrow-band detection scheme aimed at the axion-photon conversion by a static electric field inside a cylindrical capacitor. An Axions and axionlike particles may couple to nuclear spins like a weak oscillating effective magnetic field, the „axion wind.“ Existing proposals for detecting the axion wind

In a static magnetic field, an axion behaves a little bit like a photon, developing a small electric field. The stronger the magnetic field, the more “photon-like” the axion becomes. If we could In the quest for solving the dark-matter puzzle, quantum engineering strategies for improving detection sensitivity are discussed. [7] Light dark matter axion-wind detection with a static electric field, The European Physical Journal C 83, 1046 (2023), 第5作者 [8] Ultrahigh

Axions have a double motivation: they solve the ‘strong CP problem’ of the Standard Model of elementary particles and they are a candidate for the dark matter of the We explore the axionic dark matter search sensitivity with a narrow-band detection scheme aim-ing at the axion-photon conversion by the static electric eld inside a cylindrical capacitor. An Recently there has been a surge of new experimental proposals to search for ultralight axion dark matter with axion mass, ma μeV. Many of these proposals search for small oscillating magnetic

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We propose a direct axion dark matter (DM) search using superconducting transmon quantum bits (qubits) as quantum sensors. With an external magnetic field applied, axion DM generates Although we think that dark matter surrounds us, it barely interacts with ordinary matter. To see any effects from dark matter, we need an exceedingly well controlled system that we can The axion is a highly motivated elementary particle that could address two fundamental questions in physics—the strong charge-parity (CP) problem and the dark matter mystery. Experimental

How Does an Axion Detector Work?

We propose a direct axion dark matter (DM) search using superconducting transmon quantum bits (qubits) as quantum sensors. With an external magnetic field applied, We project the sensitivity by quantizing the axion-modified Maxwell equations to accurately describe atoms and molecules as quantum sensors wherever axion dark matter is This presents a viable route to detect axion dark matter with a mass of order of 1 meV, currently inaccessible by other dark matter detection methods. The independence of

The oscillating light axion field is known as wave dark matter. We propose an LC (inductor-capacitor)-resonance enhanced detection of the narrow band electric signals induced

A quantum sensing technique to scan for axion dark matter using superconducting qubits boosts search speed 20-fold by circumventing quantum noise limits. This scalable

Abstract An axion background field induces tiny oscillating electric and magnetic fields in an external static magnetic field. This signature is used to search for axion dark matter.

In perhaps the most common axion detection technique, it is generally agreed that dark matter axions can be detected via the (inverse) Primakoff effect, a two photon-axion A detection scheme is explored for light dark matter, such as axion dark matter or dark photon dark matter, using a Paul ion trap system. We first demonstrate that a qubit,

A detection scheme is explored for light dark matter, such as axion dark matter or dark photon dark matter, using a Paul ion trap system. We first demonstrate that a qubit, constructed from The detection scheme is based on a modification of Maxwell’s equations in the presence of axion-like dark matter that mixes with a static magnetic field to produce an

Search for Dark Matter Axions with CAST-CAPP

We explore the axionic dark matter search sensitivity with a narrow-band detection scheme aim-ing at the axion-photon conversion by the static electric eld inside a cylindrical capacitor. An The question of what axion mass would give rise to the observed dark matter abundance requires proper modelling of non-linear dynamics of the axion field in the early Cosmological axions/axion-like particles can compose a significant part of dark matter; however, the uncertainty of their mass is large. Here, we propose to search the axions

Abstract We present the first analysis of Dark Matter axion detection applying neural networks for the improvement of sensitivity. The main sources of thermal noise from a At present, one of the most promising approaches to look for the axion dark matter is to utilize the axion-photon conversion in external electric or magnetic fields [17]. In particular, cavity