@article{8025,
  abstract     = {Chandelier (axoaxonic) cells (ChCs) are a distinct group of GABAergic interneurons that innervate the axon initial segments of pyramidal cells. However, their circuit role and the function of their clearly defined anatomical specificity remain unclear. Recent work has demonstrated that chandelier cells can produce depolarizing GABAergic PSPs, occasionally driving postsynaptic targets to spike. On the other hand, other work suggests that ChCs are hyperpolarizing and may have an inhibitory role. These disparate functional effects may reflect heterogeneity among ChCs. Here, using brain slices from transgenic mouse strains, we first demonstrate that, across different neocortical areas and genetic backgrounds, upper Layer 2/3 ChCs belong to a single electrophysiologically and morphologically defined population, extensively sampling Layer 1 inputs with asymmetric dendrites. Consistent with being a single cell type, we find electrical coupling between ChCs. We then investigate the effect of chandelier cell activation on pyramidal neuron spiking in several conditions, ranging from the resting membrane potential to stimuli designed to approximate in vivo membrane potential dynamics. We find that under quiescent conditions, chandelier cells are capable of both promoting and inhibiting spike generation, depending on the postsynaptic membrane potential. However, during in vivo-like membrane potential fluctuations, the dominant postsynaptic effect was a strong inhibition. Thus, neocortical chandelier cells, even from within a homogeneous population, appear to play a dual role in the circuit, helping to activate quiescent pyramidal neurons, while at the same time inhibiting active ones.},
  author       = {Woodruff, A. R. and McGarry, L. M. and Vogels, Tim P and Inan, M. and Anderson, S. A. and Yuste, R.},
  issn         = {0270-6474},
  journal      = {Journal of Neuroscience},
  number       = {49},
  pages        = {17872--17886},
  publisher    = {Society for Neuroscience},
  title        = {{State-dependent function of neocortical chandelier cells}},
  doi          = {10.1523/jneurosci.3894-11.2011},
  volume       = {31},
  year         = {2011},
}

@article{1754,
  abstract     = {We report on a technique enabling electrical control of the contact silicidation process in silicon nanowire devices. Undoped silicon nanowires were contacted by pairs of nickel electrodes and each contact was selectively silicided by means of the Joule effect. By a realtime monitoring of the nanowire electrical resistance during the contact silicidation process we were able to fabricate nickel-silicide/silicon/nickel- silicide devices with controlled silicon channel length down to 8 nm. },
  author       = {Mongillo, Massimo and Spathis, Panayotis and Katsaros, Georgios and Gentile, Pascal and Sanquer, Marc and De Franceschi, Silvano},
  journal      = {ACS Nano},
  number       = {9},
  pages        = {7117 -- 7123},
  publisher    = {American Chemical Society},
  title        = {{Joule-assisted silicidation for short-channel silicon nanowire devices}},
  doi          = {10.1021/nn202524j},
  volume       = {5},
  year         = {2011},
}

@article{1755,
  abstract     = {Spin-selective tunneling of holes in SiGe nanocrystals contacted by normal-metal leads is reported. The spin selectivity arises from an interplay of the orbital effect of the magnetic field with the strong spin-orbit interaction present in the valence band of the semiconductor. We demonstrate both experimentally and theoretically that spin-selective tunneling in semiconductor nanostructures can be achieved without the use of ferromagnetic contacts. The reported effect, which relies on mixing the light and heavy holes, should be observable in a broad class of quantum-dot systems formed in semiconductors with a degenerate valence band.},
  author       = {Georgios Katsaros and Golovach, Vitaly N and Spathis, Panayotis N and Ares, Natalia and Stoffel, Mathieu and Fournel, Frank and Schmidt, Oliver G and Glazman, Leonid I and De Franceschi, Silvano},
  journal      = {Physical Review Letters},
  number       = {24},
  publisher    = {American Physical Society},
  title        = {{Observation of spin-selective tunneling in sige nanocrystals}},
  doi          = {10.1103/PhysRevLett.107.246601},
  volume       = {107},
  year         = {2011},
}

@article{1777,
  abstract     = {A wide range of experiments studying microwave photons localized in superconducting cavities have made important contributions to our understanding of the quantum properties of radiation. Propagating microwave photons, however, have so far been studied much less intensely. Here we present measurements in which we reconstruct the quantum state of itinerant single photon Fock states and their superposition with the vacuum by analyzing moments of the measured amplitude distribution up to fourth order. Using linear amplifiers and quadrature amplitude detectors, we have developed efficient methods to separate the detected single photon signal from the noise added by the amplifier. From our measurement data we have also reconstructed the corresponding Wigner function.},
  author       = {Eichler, Christopher and Bozyigit, Deniz and Lang, C and Steffen, L. and Fink, Johannes M and Wallraff, Andreas},
  journal      = {Physical Review Letters},
  number       = {22},
  publisher    = {American Physical Society},
  title        = {{Experimental state tomography of itinerant single microwave photons}},
  doi          = {10.1103/PhysRevLett.106.220503},
  volume       = {106},
  year         = {2011},
}

@article{1778,
  abstract     = {Creating a train of single photons and monitoring its propagation and interaction is challenging in most physical systems, as photons generally interact very weakly with other systems. However, when confining microwave frequency photons in a transmission line resonator, effective photon-photon interactions can be mediated by qubits embedded in the resonator. Here, we observe the phenomenon of photon blockade through second-order correlation function measurements. The experiments clearly demonstrate antibunching in a continuously pumped source of single microwave photons measured by using microwave beam splitters, linear amplifiers, and quadrature amplitude detectors. We also investigate resonance fluorescence and Rayleigh scattering in Mollow-triplet-like spectra.},
  author       = {Lang, C and Bozyigit, Deniz and Eichler, Christopher and Steffen, L. Kraig and Johannes Fink and Abdumalikov, Abdufarrukh A and Baur, Matthias P and Filipp, Stefan and Da Silva, Marcus P and Blais, Alexandre and Wallraff, Andreas},
  journal      = {Physical Review Letters},
  number       = {24},
  publisher    = {American Physical Society},
  title        = {{Observation of resonant photon blockade at microwave frequencies using correlation function measurements}},
  doi          = {10.1103/PhysRevLett.106.243601},
  volume       = {106},
  year         = {2011},
}

@article{1815,
  abstract     = {Many membrane channels and receptors exhibit adaptive, or desensitized, response to a strong sustained input stimulus, often supported by protein activity-dependent inactivation. Adaptive response is thought to be related to various cellular functions such as homeostasis and enlargement of dynamic range by background compensation. Here we study the quantitative relation between adaptive response and background compensation within a modeling framework. We show that any particular type of adaptive response is neither sufficient nor necessary for adaptive enlargement of dynamic range. In particular a precise adaptive response, where system activity is maintained at a constant level at steady state, does not ensure a large dynamic range neither in input signal nor in system output. A general mechanism for input dynamic range enlargement can come about from the activity-dependent modulation of protein responsiveness by multiple biochemical modification, regardless of the type of adaptive response it induces. Therefore hierarchical biochemical processes such as methylation and phosphorylation are natural candidates to induce this property in signaling systems.},
  author       = {Tamar Friedlander and Brenner, Naama},
  journal      = {Mathematical Biosciences and Engineering},
  number       = {2},
  pages        = {515 -- 526},
  publisher    = {Arizona State University},
  title        = {{Adaptive response and enlargement of dynamic range}},
  doi          = {10.3934/mbe.2011.8.515},
  volume       = {8},
  year         = {2011},
}

@article{14305,
  abstract     = {Understanding the mechanism of protein folding requires a detailed knowledge of the structural properties of the barriers separating unfolded from native conformations. The S-peptide from ribonuclease S forms its α-helical structure only upon binding to the folded S-protein. We characterized the transition state for this binding-induced folding reaction at high resolution by determining the effect of site-specific backbone thioxylation and side-chain modifications on the kinetics and thermodynamics of the reaction, which allows us to monitor formation of backbone hydrogen bonds and side-chain interactions in the transition state. The experiments reveal that α-helical structure in the S-peptide is absent in the transition state of binding. Recognition between the unfolded S-peptide and the S-protein is mediated by loosely packed hydrophobic side-chain interactions in two well defined regions on the S-peptide. Close packing and helix formation occurs rapidly after binding. Introducing hydrophobic residues at positions outside the recognition region can drastically slow down association.},
  author       = {Bachmann, Annett and Wildemann, Dirk and Praetorius, Florian M and Fischer, Gunter and Kiefhaber, Thomas},
  issn         = {1091-6490},
  journal      = {PNAS},
  keywords     = {Multidisciplinary},
  number       = {10},
  pages        = {3952--3957},
  publisher    = {Proceedings of the National Academy of Sciences},
  title        = {{Mapping backbone and side-chain interactions in the transition state of a coupled protein folding and binding reaction}},
  doi          = {10.1073/pnas.1012668108},
  volume       = {108},
  year         = {2011},
}

@article{1467,
  abstract     = {We propose a general conjecture for the mixed Hodge polynomial of the generic character varieties of representations of the fundamental group of a Riemann surface of genus g to GLn(C) with fixed generic semisimple conjugacy classes at k punctures. This conjecture generalizes the Cauchy identity for Macdonald polynomials and is a common generalization of two formulas that we prove in this paper. The first is a formula for the E-polynomial of these character varieties which we obtain using the character table of GLn(Fq). We use this formula to compute the Euler characteristic of character varieties. The second formula gives the Poincaré polynomial of certain associated quiver varieties which we obtain using the character table of gln(Fq). In the last main result we prove that the Poincaré polynomials of the quiver varieties equal certain multiplicities in the tensor product of irreducible characters of GLn(Fq). As a consequence we find a curious connection between Kac-Moody algebras associated with comet-shaped, and typically wild, quivers and the representation theory of GLn(Fq).},
  author       = {Tamas Hausel and Letellier, Emmanuel and Rodríguez Villegas, Fernando},
  journal      = {Duke Mathematical Journal},
  number       = {2},
  pages        = {323 -- 400},
  publisher    = {Duke University Press},
  title        = {{Arithmetic harmonic analysis on character and quiver varieties}},
  doi          = {10.1215/00127094-1444258},
  volume       = {160},
  year         = {2011},
}

@misc{5387,
  abstract     = {We consider Markov Decision Processes (MDPs) with mean-payoff parity and energy parity objectives. In system design, the parity objective is used to encode ω-regular specifications, and the mean-payoff and energy objectives can be used to model quantitative resource constraints. The energy condition re- quires that the resource level never drops below 0, and the mean-payoff condi- tion requires that the limit-average value of the resource consumption is within a threshold. While these two (energy and mean-payoff) classical conditions are equivalent for two-player games, we show that they differ for MDPs. We show that the problem of deciding whether a state is almost-sure winning (i.e., winning with probability 1) in energy parity MDPs is in NP ∩ coNP, while for mean- payoff parity MDPs, the problem is solvable in polynomial time, improving a recent PSPACE bound.},
  author       = {Chatterjee, Krishnendu and Doyen, Laurent},
  issn         = {2664-1690},
  pages        = {20},
  publisher    = {IST Austria},
  title        = {{Energy and mean-payoff parity Markov decision processes}},
  doi          = {10.15479/AT:IST-2011-0001},
  year         = {2011},
}

@article{6137,
  abstract     = {Variation in food quality and abundance requires animals to decide whether to stay on a poor food patch or leave in search of better food. An important question in behavioral ecology asks when is it optimal for an animal to leave a food patch it is depleting. Although optimal foraging is central to evolutionary success, the neural and molecular mechanisms underlying it are poorly understood. Here we investigate the neuronal basis for adaptive food-leaving behavior in response to resource depletion in Caenorhabditis elegans, and identify several of the signaling pathways involved. The ASE neurons, previously implicated in salt chemoattraction, promote food-leaving behavior via a cGMP pathway as food becomes limited. High ambient O2 promotes food-leaving via the O2-sensing neurons AQR, PQR, and URX. Ectopic activation of these neurons using channelrhodopsin is sufficient to induce high food-leaving behavior. In contrast, the neuropeptide receptor NPR-1, which regulates social behavior on food, acts in the ASE neurons, the nociceptive ASH neurons, and in the RMG interneuron to repress food-leaving. Finally, we show that neuroendocrine signaling by TGF-β/DAF-7 and neuronal insulin signaling are necessary for adaptive food-leaving behavior. We suggest that animals integrate information about their nutritional state with ambient oxygen and gustatory stimuli to formulate optimal foraging strategies.},
  author       = {Milward, K. and Busch, K. E. and Murphy, R. J. and de Bono, Mario and Olofsson, B.},
  issn         = {0027-8424},
  journal      = {Proceedings of the National Academy of Sciences},
  number       = {51},
  pages        = {20672--20677},
  publisher    = {National Academy of Sciences},
  title        = {{Neuronal and molecular substrates for optimal foraging in Caenorhabditis elegans}},
  doi          = {10.1073/pnas.1106134109},
  volume       = {108},
  year         = {2011},
}

@article{6138,
  author       = {Bretscher, Andrew Jonathan and Kodama-Namba, Eiji and Busch, Karl Emanuel and Murphy, Robin Joseph and Soltesz, Zoltan and Laurent, Patrick and de Bono, Mario},
  issn         = {0896-6273},
  journal      = {Neuron},
  number       = {6},
  pages        = {1099--1113},
  publisher    = {Elsevier BV},
  title        = {{Temperature, oxygen, and salt-sensing neurons in C. elegans are carbon dioxide sensors that control avoidance behavior}},
  doi          = {10.1016/j.neuron.2011.02.023},
  volume       = {69},
  year         = {2011},
}

@article{6140,
  abstract     = {Genome sequence comparisons have highlighted many novel gene families that are conserved across animal phyla but whose biological function is unknown. Here, we functionally characterize a member of one such family, the macoilins. Macoilins are characterized by several highly conserved predicted transmembrane domains towards the N-terminus and by coiled-coil regions C-terminally. They are found throughout Eumetazoa but not in other organisms. Mutants for the single Caenorhabditis elegans macoilin, maco-1, exhibit a constellation of behavioral phenotypes, including defects in aggregation, O2 responses, and swimming. MACO-1 protein is expressed broadly and specifically in the nervous system and localizes to the rough endoplasmic reticulum; it is excluded from dendrites and axons. Apart from subtle synapse defects, nervous system development appears wild-type in maco-1 mutants. However, maco-1 animals are resistant to the cholinesterase inhibitor aldicarb and sensitive to levamisole, suggesting pre-synaptic defects. Using in vivo imaging, we show that macoilin is required to evoke Ca2+ transients, at least in some neurons: in maco-1 mutants the O2-sensing neuron PQR is unable to generate a Ca2+ response to a rise in O2. By genetically disrupting neurotransmission, we show that pre-synaptic input is not necessary for PQR to respond to O2, indicating that the response is mediated by cell-intrinsic sensory transduction and amplification. Disrupting the sodium leak channels NCA-1/NCA-2, or the N-,P/Q,R-type voltage-gated Ca2+ channels, also fails to disrupt Ca2+ responses in the PQR cell body to O2 stimuli. By contrast, mutations in egl-19, which encodes the only Caenorhabditis elegans L-type voltage-gated Ca2+ channel α1 subunit, recapitulate the Ca2+ response defect we see in maco-1 mutants, although we do not see defects in localization of EGL-19. Together, our data suggest that macoilin acts in the ER to regulate assembly or traffic of ion channels or ion channel regulators.},
  author       = {Arellano-Carbajal, Fausto and Briseño-Roa, Luis and Couto, Africa and Cheung, Benny H. H. and Labouesse, Michel and de Bono, Mario},
  issn         = {1553-7404},
  journal      = {PLoS Genetics},
  number       = {3},
  publisher    = {Public Library of Science},
  title        = {{Macoilin, a conserved nervous system–specific ER membrane protein that regulates neuronal excitability}},
  doi          = {10.1371/journal.pgen.1001341},
  volume       = {7},
  year         = {2011},
}

@article{6298,
  abstract     = {Tumor necrosis factor-stimulated gene-6 (TSG-6) is a hyalu-ronan (HA)-binding protein that plays important roles ininflammation and ovulation. TSG-6-mediated cross-linking ofHA has been proposed as a functional mechanism (e.g.for regu-lating leukocyte adhesion), but direct evidence for cross-linkingis lacking, and we know very little about its impact on HA ultra-structure. Here we used films of polymeric and oligomeric HAchains, end-grafted to a solid support, and a combination ofsurface-sensitive biophysical techniques to quantify the bindingof TSG-6 into HA films and to correlate binding to morpholog-ical changes. We find that full-length TSG-6 binds with pro-nounced positive cooperativity and demonstrate that it cancross-link HA at physiologically relevant concentrations. Ourdata indicate that cooperative binding of full-length TSG-6arises from HA-induced protein oligomerization and that theTSG-6 oligomers act as cross-linkers. In contrast, the HA-bind-ing domain of TSG-6 (the Link module) alone binds withoutpositive cooperativity and weaker than the full-length protein.Both the Link module and full-length TSG-6 condensed andrigidified HA films, and the degree of condensation scaled withthe affinity between the TSG-6 constructs and HA. We proposethat condensation is the result of protein-mediated HA cross-linking. Our findings firmly establish that TSG-6 is a potent HAcross-linking agent and might hence have important implica-tions for the mechanistic understanding of the biological func-tion of TSG-6 (e.g.in inflammation).},
  author       = {Baranova, Natalia and Nilebäck, Erik and Haller, F. Michael and Briggs, David C. and Svedhem, Sofia and Day, Anthony J. and Richter, Ralf P.},
  issn         = {0021-9258},
  journal      = {Journal of Biological Chemistry},
  number       = {29},
  pages        = {25675--25686},
  publisher    = {American Society for Biochemistry & Molecular Biology},
  title        = {{The inflammation-associated protein TSG-6 cross-links hyaluronan via hyaluronan-induced TSG-6 oligomers}},
  doi          = {10.1074/jbc.m111.247395},
  volume       = {286},
  year         = {2011},
}

@article{6496,
  abstract     = {We report the switching behavior of the full bacterial flagellum system that includes the filament and the motor in wild-type Escherichia coli cells. In sorting the motor behavior by the clockwise bias, we find that the distributions of the clockwise (CW) and counterclockwise (CCW) intervals are either exponential or nonexponential with long tails. At low bias, CW intervals are exponentially distributed and CCW intervals exhibit long tails. At intermediate CW bias (0.5) both CW and CCW intervals are mainly exponentially distributed. A simple model suggests that these two distinct switching behaviors are governed by the presence of signaling noise within the chemotaxis network. Low noise yields exponentially distributed intervals, whereas large noise yields nonexponential behavior with long tails. These drastically different motor statistics may play a role in optimizing bacterial behavior for a wide range of environmental conditions.},
  author       = {Park, Heungwon and Oikonomou, Panos and Guet, Calin C and Cluzel, Philippe},
  issn         = {0006-3495},
  journal      = {Biophysical Journal},
  number       = {10},
  pages        = {2336--2340},
  publisher    = {Elsevier},
  title        = {{Noise underlies switching behavior of the bacterial flagellum}},
  doi          = {10.1016/j.bpj.2011.09.040},
  volume       = {101},
  year         = {2011},
}

@article{6749,
  abstract     = {This article refers to algorithms based on finite difference schemes for computing mean and affine curvature evolutions of digital images, introduced by Alvarez and Morel [L. Alvarez, J.M. Morel, “Formalization and computational aspects of image analysis”, Acta Numerica, pp. 159, 1994]. We discuss consistency, stability and convergence. Our analysis focuses on some possible choices of the parameters, choices that generate multiple variants in the implementations. Meaningful visual examples on how the algorithms actually work are provided.},
  author       = {Mondelli, Marco and Ciomaga, Adina},
  issn         = {2105-1232},
  journal      = {Image Processing On Line},
  pages        = {127--177},
  publisher    = {IPOL Image Processing On Line},
  title        = {{Finite difference schemes for MCM and AMSS}},
  doi          = {10.5201/ipol.2011.cm_fds},
  volume       = {1},
  year         = {2011},
}

@article{10389,
  abstract     = {We perform numerical simulations to study self-assembly of nanoparticles mediated by an elastic planar surface. We show how the nontrivial elastic response to deformations of these surfaces leads to anisotropic interactions between the particles resulting in aggregates having different geometrical features. The morphology of the patterns can be controlled by the mechanical properties of the surface and the strength of the particle adhesion. We use simple scaling arguments to understand the formation of the different structures, and we show how the adhering particles can cause the underlying elastic substrate to wrinkle if two of its opposite edges are clamped. Finally, we discuss the implications of our results and suggest how elastic surfaces could be used in nanofabrication.},
  author       = {Šarić, Anđela and Cacciuto, Angelo},
  issn         = {1744-6848},
  journal      = {Soft Matter},
  keywords     = {condensed matter physics, general chemistry},
  number       = {18},
  publisher    = {Royal Society of Chemistry},
  title        = {{Soft elastic surfaces as a platform for particle self-assembly}},
  doi          = {10.1039/c1sm05773a},
  volume       = {7},
  year         = {2011},
}

@article{1048,
  abstract     = {We produce an ultracold and dense sample of rovibronic ground state Cs 2 molecules close to the regime of quantum degeneracy, in a single hyperfine level, in the presence of an optical lattice. The molecules are individually trapped, in the motional ground state of an optical lattice well, with a lifetime of 8 s. For preparation, we start with a zero-temperature atomic Mott-insulator state with optimized double-site occupancy and efficiently associate weakly-bound dimer molecules on a Feshbach resonance. Despite extremely weak Franck-Condon wavefunction overlap, the molecules are subsequently transferred with &gt;50% efficiency to the rovibronic ground state by a stimulated four-photon process. Our results present a crucial step towards the generation of Bose-Einstein condensates of ground-state molecules and, when suitably generalized to polar heteronuclear molecules such as RbCs, the realization of dipolar many-body quantum-gas phases in periodic potentials.},
  author       = {Nägerl, Hanns and Mark, Manfred and Haller, Elmar and Gustavsson, Mattias and Hart, Russell and Danzl, Johann G},
  journal      = {Journal of Physics: Conference Series},
  number       = {1},
  publisher    = {IOP Publishing Ltd.},
  title        = {{Ultracold and dense samples of ground-state molecules in lattice potentials}},
  doi          = {10.1088/1742-6596/264/1/012015},
  volume       = {264},
  year         = {2011},
}

@article{1050,
  abstract     = {We present experimentally derived potential curves 1?and spin-orbit interaction functions for the strongly perturbed AΣu+ 3?and bΠu states of the cesium dimer. The results are based on data from several sources. Laser-induced fluorescence Fourier transform spectroscopy (LIF FTS) was used some time ago in the Laboratoire Aimé Cotton primarily to study the XΣg+ state. More recent work at Tsinghua University provides information from moderate 3?resolution spectroscopy on the lowest levels of the bΠ0u± state as well as additional high-resolution data. From Innsbruck University, we have precision data obtained with cold Cs2 molecules. Recent data from Temple University was obtained using the optical-optical double resonance polarization spectroscopy technique, and finally, a group at the University of Latvia has added additional LIF FTS data. In the Hamiltonian matrix, we have used analytic potentials (the expanded Morse oscillator form) with both finite-difference (FD) coupled-channel and discrete variable representation (DVR) calculations of the term values. Fitted diagonal and off-diagonal spin-orbit functions are obtained and compared with ab initio results from Temple and Moscow State universities.},
  author       = {Bai, Jianmei and Ahmed, Ergin and Beser, Bediha and Guan, Yafei and Kotochigova, Svetlana and Lyyra, Marjatta and Ashman, Seth and Wolfe, Christopher and Huennekens, John and Xie, Feng and Li, Dan and Li, Li and Tamanis, Maris and Ferber, Ruvin and Drozdova, Anastasia and Pazyuk, Elena and Stolyarov, Andrey and Danzl, Johann G and Nägerl, Hanns and Bouloufa, Nadia and Dulieu, Olivier and Amiot, Claude and Salami, Houssam and Bergeman, Thomas},
  journal      = { Physical Review A - Atomic, Molecular, and Optical Physics},
  number       = {3},
  publisher    = {American Physical Society},
  title        = {{Global analysis of data on the spin-orbit-coupled A 1Σu+ and b 3Πu inf states of Cs2}},
  doi          = {10.1103/PhysRevA.83.032514},
  volume       = {83},
  year         = {2011},
}

@article{1052,
  abstract     = {The present paper aims at finding optimal parameters for trapping of Cs 2 molecules in optical lattices, with the perspective of creating a quantum degenerate gas of ground-state molecules. We have calculated dynamic polarizabilities of Cs 2 molecules subject to an oscillating electric field, using accurate potential curves and electronic transition dipole moments. We show that for some particular wavelengths of the optical lattice, called &quot;magic wavelengths&quot;, the polarizability of the ground-state molecules is equal to the one of a Feshbach molecule. As the creation of the sample of ground-state molecules relies on an adiabatic population transfer from weakly-bound molecules created on a Feshbach resonance, such a coincidence ensures that both the initial and final states are favorably trapped by the lattice light, allowing optimized transfer in agreement with the experimental observation.},
  author       = {Vexiau, Romain and Bouloufa, Nadia and Aymar, Mireille and Danzl, Johann G and Mark, Manfred and Nägerl, Hanns and Dulieu, Olivier},
  journal      = {European Physical Journal D},
  number       = {1-2},
  pages        = {243 -- 250},
  publisher    = {Springer},
  title        = {{Optimal trapping wavelengths of Cs 2 molecules in an optical lattice}},
  doi          = {10.1140/epjd/e2011-20085-4},
  volume       = {65},
  year         = {2011},
}

@article{1053,
  abstract     = {We perform precision measurements on a Mott-insulator quantum state of ultracold atoms with tunable interactions. We probe the dependence of the superfluid-to-Mott-insulator transition on the interaction strength and explore the limits of the standard Bose-Hubbard model description. By tuning the on-site interaction energies to values comparable to the interband separation, we are able to quantitatively measure number-dependent shifts in the excitation spectrum caused by effective multibody interactions.},
  author       = {Mark, Manfred and Haller, Elmar and Lauber, Katharina and Danzl, Johann G and Daley, Andrew and Nägerl, Hanns},
  journal      = {Physical Review Letters},
  number       = {17},
  publisher    = {American Physical Society},
  title        = {{Precision measurements on a tunable Mott insulator of ultracold atoms}},
  doi          = {10.1103/PhysRevLett.107.175301},
  volume       = {107},
  year         = {2011},
}

