Add to ORKGQuantum two-level systems (TLSs) intrinsic to glasses induce decoherence in many modern quantum devices, such as superconducting qubits. Although the low-temperature physics of these TLSs is usually well-explained by a phenomenological standard tunneling model of independent TLSs, the nature of these TLSs, as well as their behavior out of equilibrium and at high energies above 1 K, remain inconclusive. Here we measure the non-equilibrium dielectric loss of TLSs in amorphous silicon using a superconducting resonator, where energies of TLSs are varied in time using a swept electric field. Our results show the existence of two distinct ensembles of TLSs, interacting weakly and strongly with phonons, where the latter also possesses anomalously ...
Amorphous solids show surprisingly universal behaviour at low temperatures. The prevailing wisdom is...
Parasitic two-level tunnelling systems originating from structural material defects affect the funct...
The ubiquitous low-energy excitations are one of the universal phenomena of amorphous solids. These ...
Quantum two-level systems (TLSs) intrinsic to glasses induce decoherence in many modern quantum devi...
The anomalous low-temperature properties of glasses arise from intrinsic excitable entities, so-call...
Increasing and stabilizing the coherence of superconducting quantum circuits and resonators is of ut...
Understanding the nature and dynamics of material defects in superconducting circuits is of paramoun...
Recent progress with microfabricated quantum devices has revealed that an ubiquitous source of noise...
The dielectric loss of amorphous materials along with noise and decoherence are the major limiting f...
Quantum two-level systems (TLSs) are present in the materials of qubits and are considered defects b...
Tunneling two-level systems (TLS) are considered by the glass community to be a hallmark characteris...
1/f noise caused by microscopic two-level systems (TLS) is known to be very detrimental to the perfo...
While several experiments claim that two-level system (TLS) defects in amorphous surfaces/interfaces...
The thermal, acoustic, and dielectric properties of glasses below 1 K are dictated by the interactio...
Superconducting quantum computing is experiencing a tremendous growth. Although major milestones hav...
Amorphous solids show surprisingly universal behaviour at low temperatures. The prevailing wisdom is...
Parasitic two-level tunnelling systems originating from structural material defects affect the funct...
The ubiquitous low-energy excitations are one of the universal phenomena of amorphous solids. These ...
Quantum two-level systems (TLSs) intrinsic to glasses induce decoherence in many modern quantum devi...
The anomalous low-temperature properties of glasses arise from intrinsic excitable entities, so-call...
Increasing and stabilizing the coherence of superconducting quantum circuits and resonators is of ut...
Understanding the nature and dynamics of material defects in superconducting circuits is of paramoun...
Recent progress with microfabricated quantum devices has revealed that an ubiquitous source of noise...
The dielectric loss of amorphous materials along with noise and decoherence are the major limiting f...
Quantum two-level systems (TLSs) are present in the materials of qubits and are considered defects b...
Tunneling two-level systems (TLS) are considered by the glass community to be a hallmark characteris...
1/f noise caused by microscopic two-level systems (TLS) is known to be very detrimental to the perfo...
While several experiments claim that two-level system (TLS) defects in amorphous surfaces/interfaces...
The thermal, acoustic, and dielectric properties of glasses below 1 K are dictated by the interactio...
Superconducting quantum computing is experiencing a tremendous growth. Although major milestones hav...
Amorphous solids show surprisingly universal behaviour at low temperatures. The prevailing wisdom is...
Parasitic two-level tunnelling systems originating from structural material defects affect the funct...
The ubiquitous low-energy excitations are one of the universal phenomena of amorphous solids. These ...