David Blasing scite author profile

David Blasing

5Publications

75Citation Statements Received

307Citation Statements Given

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221

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Purdue University West Lafayette, Purdue University System

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Spin current generation and relaxation in a quenched spin-orbit-coupled Bose-Einstein condensate

Niffenegger

et al. 2019

Nat Commun

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Understanding the effects of spin-orbit coupling (SOC) and many-body interactions on spin transport is important in condensed matter physics and spintronics. This topic has been intensively studied for spin carriers such as electrons but barely explored for charge-neutral bosonic quasiparticles (including their condensates), which hold promises for coherent spin transport over macroscopic distances. Here, we explore the effects of synthetic SOC (induced by optical Raman coupling) and atomic interactions on the spin transport in an atomic Bose-Einstein condensate (BEC), where the spin-dipole mode (SDM, actuated by quenching the Raman coupling) of two interacting spin components constitutes an alternating spin current. We experimentally observe that SOC significantly enhances the SDM damping while reducing the thermalization (the reduction of the condensate fraction). We also observe generation of BEC collective excitations such as shape oscillations. Our theory reveals that the SOC-modified interference, immiscibility, and interaction between the spin components can play crucial roles in spin transport.

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Observation of Quantum Interference and Coherent Control in a Photochemical Reaction

et al. 2018

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Coherent control of reactants remains a long-standing challenge in quantum chemistry. In particular, we have studied laser-induced molecular formation (photoassociation) in a Raman-dressed spin-orbit-coupled ^{87}Rb Bose-Einstein condensate, whose spin quantum state is a superposition of multiple bare spin components. In contrast to the notably different photoassociation-induced fractional atom losses observed for the bare spin components of a statistical mixture, a superposition state with a comparable spin composition displays the same fractional loss on every spin component. We interpret this as the superposition state itself undergoing photoassociation. For superposition states induced by a large Raman coupling and zero Raman detuning, we observe a nearly complete suppression of the photoassociation rate. This suppression is consistent with a model based upon quantum destructive interference between two photoassociation pathways for colliding atoms with different spin combinations. This model also explains the measured dependence of the photoassociation rate on the Raman detuning at a moderate Raman coupling. Our work thus suggests that preparing atoms in quantum superpositions may represent a powerful new technique to coherently control photochemical reactions.

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C1Σ+, A1Σ+, and
Stevenson
¹
,
Blasing
²
,
Chen
³

et al. 2016
Phys. Rev. A

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We present the first spectroscopic studies of the C 1 Σ + electronic state and the A 1 Σ +-b 3 Π 0 + complex in 7 Li-85 Rb. Using resonantly-enhanced, two-photon ionization, we observed v = 7, 9, 12, 13 and 26 − 45 of the C 1 Σ + state. We augment the REMPI data with a form of depletion spectra in regions of dense spectral lines. The A 1 Σ +-b 3 Π 0 + complex was observed with depletion spectroscopy, depleting to vibrational levels v = 0 → 29 of the A 1 Σ + state and v = 8 → 18 of the b 3 Π 0 + state. For all three series, we determine the term energy and vibrational constants. Finally, we outline several possible future projects based on the data presented here.

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Short-range photoassociation of LiRb

et al. 2016

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We have observed short-range photoassociation of LiRb to the two lowest vibrational states of the d 3 Π potential. These d 3 Π molecules then spontaneously decay to vibrational levels of the a 3 Σ + state with generation rates of ∼ 10 3 molecules per second. This is the first observation of many of these a 3 Σ + levels. We observe an alternation of the peak heights in the rotational photoassociation spectrum that suggests a p-wave shape resonance in the scattering state. Franck-Condon overlap calculations predict that photoassociation to higher vibrational levels of the d 3 Π, in particular the sixth vibrational level, should populate the lowest vibrational level of the a 3 Σ + state with a rate as high as 10 4 molecules per second. These results encourage further work to explain our observed LiRb collisional physics using PECs. This work also motivates an experimental search for short-range photoassociation to other bound molecules, such as the c 3 Σ + or b 3 Π, as prospects for preparing ground-state molecules.Heteronuclear bi-alkali molecules in the X 1 Σ + or a 3 Σ + electronic potentials are interesting both experimentally and theoretically for a number of reasons. Experimentally, they have long lifetimes and large, permanent electric dipole moments. Significant effort has been dedicated to the study of dipolar molecules [1-3], in part because permanent electric dipole moments give rise to interesting long-range and anisotropic interactions [4]. For example, dipolar bosons may exhibit a pair supersolid phase [5], and enhance [6] or destabilize [7] superfluidity. They have been proposed as qubits for quantum computation [8,9], which, under certain conditions, could exhibit high fidelity [10]. Trapped ensembles of heteronuclear bi-alkali molecules could also exhibit novel few-body [11] and many-body interactions [12][13][14]. Such molecules could even be used to probe for variation of fundamental constants [15].The first step in any experimental realization is, of course, the creation of the ultracold heteronuclear bialkali molecules themselves. Two preparation methods stand out in particular: magnetoassociation followed by Stimulated Raman Adiabatic Passage (STIRAP) [16], and photoassociation (PA) followed by spontaneous emission [17,18]. The PA method is experimentally simpler (as it only involves one laser), but it relies on finding an excited state that decays preferentially to the desired final state. To extend the study of the rich physics offered by ultracold heteronuclear bi-alkali molecules, various preparation methods must be evaluated in a variety of systems. In this work using ultracold LiRb, we have evaluated one pathway to create a 3 Σ + molecules, namely PA of atoms to the d 3 Π molecular state.Photoassociation is the process where unbound atoms, colliding in the presence of light, can absorb a photon and bind into an electronically excited state molecule. In order to have a significant probability for this pro- * These two authors contributed equally † Corresponding author: David Blasing, dblas...

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Production of ultracold ground-state LiRb molecules by photoassociation through a resonantly coupled state

et al. 2016

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We report on a resonantly coupled 2(1) -4 (1) photoassociation resonance in LiRb. This pair of states displays interesting decay physics that hint at interference-like effects caused by two different decay paths. We observe decay to predominantly X 1 Σ + v = 43, with significant numbers of molecules produced in X 1 Σ + v = 2 -12. This photoassociation resonance also produces ∼300 X 1 Σ + v = 0 J = 0 molecules/second. Finally, we identify a stimulated Raman adiabatic passage transfer pathway from v = 43 to v = 0 that has the potential to produce up to 2 × 10 5 LiRb molecules/second in the X 1 Σ + v = 0 J = 0 state.

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David Blasing

Spin current generation and relaxation in a quenched spin-orbit-coupled Bose-Einstein condensate

Observation of Quantum Interference and Coherent Control in a Photochemical Reaction

C1Σ+, A1Σ+, and
Stevenson
¹
,
Blasing
²
,
Chen
³

et al. 2016
Phys. Rev. A

Short-range photoassociation of LiRb

Production of ultracold ground-state LiRb molecules by photoassociation through a resonantly coupled state

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David Blasing

Spin current generation and relaxation in a quenched spin-orbit-coupled Bose-Einstein condensate

Observation of Quantum Interference and Coherent Control in a Photochemical Reaction

C1Σ+, A1Σ+, andStevenson1, Blasing2, Chen3 et al. 2016Phys. Rev. A

Short-range photoassociation of LiRb

Production of ultracold ground-state LiRb molecules by photoassociation through a resonantly coupled state

Contact Info

Product

Resources

About

C1Σ+, A1Σ+, and
Stevenson
¹
,
Blasing
²
,
Chen
³

et al. 2016
Phys. Rev. A