Nathan Everett scite author profile

Atomically precise electronics operating at optical frequencies require tools that can characterize them on their intrinsic length and time scales to guide device design. Lightwave-driven scanning tunnelling microscopy is a promising technique towards this purpose. It achieves simultaneous sub-ångström and sub-picosecond spatio-temporal resolution through ultrafast coherent control by single-cycle field transients that are coupled to the scanning probe tip from free space. Here, we utilize lightwave-driven terahertz scanning tunnelling microscopy and spectroscopy to investigate atomically precise seven-atom-wide armchair graphene nanoribbons on a gold surface at ultralow tip heights, unveiling highly localized wavefunctions that are inaccessible by conventional scanning tunnelling microscopy. Tomographic imaging of their electron densities reveals vertical decays that depend sensitively on wavefunction and lateral position. Lightwave-driven scanning tunnelling spectroscopy on the ångström scale paves the way for ultrafast measurements of wavefunction dynamics in atomically precise nanostructures and future optoelectronic devices based on locally tailored electronic properties.

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Charge Radii of Ni55,56 Reveal a Surprisingly Similar Behavior at N=28
Sommer¹,
König²,
Rossi³
et al. 2022
Phys. Rev. Lett.
20
3
8
0
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Nuclear charge radii of 55;56 Ni were measured by collinear laser spectroscopy. The obtained information completes the behavior of the charge radii at the shell closure of the doubly magic nucleus 56 Ni. The trend of charge radii across the shell closures in calcium and nickel is surprisingly similar despite the fact that the 56 Ni core is supposed to be much softer than the 48 Ca core. The very low magnetic moment μð 55 NiÞ ¼ −1.108ð20Þ μ N indicates the impact of M1 excitations between spin-orbit partners across the N; Z ¼ 28 shell gaps. Our charge-radii results are compared to ab initio and nuclear density functional theory calculations, showing good agreement within theoretical uncertainties.

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Algorithm for subcycle terahertz scanning tunneling spectroscopy

et al. 2022

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Terahertz scanning tunneling microscopy (THz-STM) enables ultrafast measurements of surfaces, single molecules, and nanostructures with simultaneous sub-picosecond temporal resolution and atomic spatial resolution. In pump-probe THz-STM experiments employing femtosecond optical pump pulses, lightwave-driven tunneling by a time-delayed THz probe pulse accesses the evolving differential conductance of the tunnel junction following photoexcitation. However, a general theoretical approach to extract the time-and voltage-dependent differential conductance from THz-STM measurements is lacking. Here, we introduce an algorithm for pump-probe THz scanning tunneling spectroscopy (THz-STS) analysis. Our approach allows us to reliably reconstruct the tunnel junctions differential conductance in steady-state or time-dependent scenarios from simulated THz-STS data. The algorithm achieves subcycle time resolution, which we demonstrate by retrieving dynamics faster than the bandwidth of the input THz voltage transient. Subcycle THz-STS will make lightwave-driven microscopy yet more powerful as a tool for characterizing ångström-scale ultrafast dynamics in novel materials.

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Improved wavelength meter calibration in near infrared region via Doppler-free spectroscopy of molecular iodine

et al. 2021

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London Underground Deep Tube Upgrade Programme: System Function Definition Model Case Study

Everett¹,

Coultharde-Steer

Fischer³

2019

INCOSE International Symp

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On complex rail projects involving a step change in technology or capability, it is important to understand what functionality is required from the system, especially if such changes are new or novel. This paper details a case study (Deep Tube Upgrade Programme) where a structured functional breakdown approach was developed to provide stakeholders (including non‐Systems Engineering practitioners such as operators and maintainers) with an accessible means of checking their life‐cycle concepts and stakeholder requirements for completeness. The approach also enabled the decomposition of those needs into system design requirements for allocation to one or more of the 20 delivery projects, to ensure they will deliver the required emergent properties.

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Nathan Everett

Lightwave-driven scanning tunnelling spectroscopy of atomically precise graphene nanoribbons

Charge Radii of Ni55,56 Reveal a Surprisingly Similar Behavior at N=28
Sommer¹,
König²,
Rossi³
et al. 2022
Phys. Rev. Lett.
20
3
8
0
View full text Add to dashboard Cite

Algorithm for subcycle terahertz scanning tunneling spectroscopy

Improved wavelength meter calibration in near infrared region via Doppler-free spectroscopy of molecular iodine

London Underground Deep Tube Upgrade Programme: System Function Definition Model Case Study

Contact Info

Product

Resources

About

Nathan Everett

Lightwave-driven scanning tunnelling spectroscopy of atomically precise graphene nanoribbons

Charge Radii of Ni55,56 Reveal a Surprisingly Similar Behavior at N=28Sommer1, König2, Rossi3 et al. 2022Phys. Rev. Lett.20380View full textAdd to dashboardCite

Algorithm for subcycle terahertz scanning tunneling spectroscopy

Improved wavelength meter calibration in near infrared region via Doppler-free spectroscopy of molecular iodine

London Underground Deep Tube Upgrade Programme: System Function Definition Model Case Study

Contact Info

Product

Resources

About

Charge Radii of Ni55,56 Reveal a Surprisingly Similar Behavior at N=28
Sommer¹,
König²,
Rossi³
et al. 2022
Phys. Rev. Lett.
20
3
8
0
View full text Add to dashboard Cite