4,475 research outputs found
A Gift is not Always a Gift: Gift Exchange in a Voucher Experiment
Different from traditional gift exchange experiments, we study a field experiment where a random subsample of participants in the Swiss Labor Force Survey was sent vouchers to be used in adult training courses. Importantly for our purposes, actual voucher redemption can be traced. This gives the unique opportunity to study whether gift exchange in the form of participation in future rounds of the survey depends on the perceived usefulness of the gift. We find that the group of voucher recipients as a whole has significantly higher response rates in the survey six months after the vouchers were sent out. There is considerable heterogeneity, though. Our results point to a long-lasting gift exchange relationship for the sub-group that had redeemed their vouchers. Contrary to this group, the individuals who did not redeem their vouchers, had a response pattern that was not significantly different from the voucher non-recipients.gift exchange, reciprocity, field experiment, long-run effects
A gift is not always a gift: Gift exchange in a voucher experiment
Different from traditional gift exchange experiments, we study a field experiment where a random subsample of participants in the Swiss Labor Force Survey was sent vouchers to be used in adult training courses. Importantly for our purposes, actual voucher redemption can be traced. This gives the unique opportunity to study whether gift exchange in the form of participation in future rounds of the survey depends on the perceived usefulness of the gift. We find that the group of voucher recipients as a whole has significantly higher response rates in the survey six months after the vouchers were sent out. There is considerable heterogeneity, though. Our results point to a long-lasting gift exchange relationship for the sub-group that had redeemed their vouchers. Contrary to this group, the individuals who did not redeem their vouchers, had a response pattern that was not significantly different from the voucher non-recipients
Electronic structure of the molecule based magnet Cu PM(NO3)2 (H2O)2
We present density functional calculations on the molecule based S=1/2
antiferromagnetic chain compound Cu PM(NO3)2 (H2O)2; PM = pyrimidine. The
properties of the ferro- and antiferromagnetic state are investigated at the
level of the local density approximation and with the hybrid functional B3LYP.
Spin density maps illustrate the exchange path via the pyrimidine molecule
which mediates the magnetism in the one-dimensional chain. The computed
exchange coupling is antiferromagnetic and in reasonable agreement with the
experiment. It is suggested that the antiferromagnetic coupling is due to the
possibility of stronger delocalization of the charges on the nitrogen atoms,
compared to the ferromagnetic case. In addition, computed isotropic and
anisotropic hyperfine interaction parameters are compared with recent NMR
experiments
Laser Control of Dissipative Two-Exciton Dynamics in Molecular Aggregates
There are two types of two-photon transitions in molecular aggregates, that
is, non-local excitations of two monomers and local double excitations to some
higher excited intra-monomer electronic state. As a consequence of the
inter-monomer Coulomb interaction these different excitation states are coupled
to each other. Higher excited intra-monomer states are rather short-lived due
to efficient internal conversion of electronic into vibrational energy.
Combining both processes leads to the annihilation of an electronic excitation
state, which is a major loss channel for establishing high excitation densities
in molecular aggregates. Applying theoretical pulse optimization techniques to
a Frenkel exciton model it is shown that the dynamics of two-exciton states in
linear aggregates (dimer to tetramer) can be influenced by ultrafast shaped
laser pulses. In particular, it is studied to what extent the decay of the
two-exciton population by inter-band transitions can be transiently suppressed.
Intra-band dynamics is described by a dissipative hierarchy equation approach,
which takes into account strong exciton-vibrational coupling in the
non-Markovian regime.Comment: revised version, fig. 8 ne
Coupling of frustrated Ising spins to magnetic cycloid in multiferroic TbMnO3
We report on diffraction measurements on multiferroic TbMnO3 which
demonstrate that the Tb- and Mn-magnetic orders are coupled below the
ferroelectric transition TFE = 28 K. For T < TFE the magnetic propagation
vectors (tau) for Tb and Mn are locked so that tauTb = tauMn, while below TNTb
= 7 K we find that tauTb and tauMn lock-in to rational values of 3/7 b* and 2/7
b*, respectively, and obey the relation 3tauTb - tauMn = 1. We explain this
novel matching of wave vectors within the frustrated ANNNI model coupled to a
periodic external field produced by the Mn-spin order. The tauTb = tauMn
behavior is recovered when Tb magnetization is small, while the tauTb = 3/7
regime is stabilized at low temperatures by a peculiar arrangement of domain
walls in the ordered state of Ising-like Tb spins.Comment: 5 pages, 3 figure
XMM-Newton observations of the BL Lac MS 0737+7441
We report on the XMM-Newton observations of the BL Lac object MS 0737.9+7441
during the performance verification phase. A simple power-law fit provides an
adequate description of the integrated spectrum in the 0.2-10 keV energy band.
The photon index is slightly steeper in the EPIC pn data with 2.38+-0.01
compared to the EPIC MOS data (2.28+-0.01). The difference is most probably due
to the present uncertainties in the calibration of the EPIC MOS and EPIC pn
data sets. We report evidence for intrinsic absorption in the distant BL Lac
above the Galactic column N_H,Gal=3.2*10^20 cm^-2 which is N_H,fit(z=0.315)=
(2.70+-0.20)*10^20cm^-2 in the EPIC pn data and N_H,fit(z=0.315)=
(3.25+-0.25)*10^20cm^-2 in the EPIC MOS data assuming neutral gas and solar
abundances. The flux variations are found to be of the order of 10 %.Comment: 4 pages, 4 Figures, accepted for publication in the special A&A
Letters issue for XMM-Newto
Quantum spin chain as a potential realization of the Nersesyan-Tsvelik model
It is well established that long-range magnetic order is suppressed in
magnetic systems whose interactions are low-dimensional. The prototypical
example is the S-1/2 Heisenberg antiferromagnetic chain (S-1/2 HAFC) whose
ground state is quantum critical. In real S-1/2 HAFC compounds interchain
coupling induces long-range magnetic order although with a suppressed ordered
moment and reduced N\'eel temperature compared to the Curie-Weiss temperature.
Recently, it was suggested that order can also be suppressed if the interchain
interactions are frustrated, as for the Nersesyan-Tsvelik model. Here, we study
the new S-1/2 HAFC, (NO)[Cu(NO3)3]. This material shows extreme suppression of
order which furthermore is incommensurate revealing the presence of frustration
consistent with the Nersesyan-Tsvelik model
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