112 Gbit/s single-polarization silicon coherent receiver with hybrid-integrated BiCMOS linear TIA

We report the design, fabrication and verification of a single-polarization silicon coherent receiver with a low-power linear TIA array. Error-free operation assuming FEC is shown at bitrates of 112 Gbit/s (28 Gbaud 16-QAM) and 56 Gbit/s (28 Gbaud QPSK)

White Gaussian Noise Based Capacity Estimate and Characterization of Fiber-Optic Links

We use white Gaussian noise as a test signal for single-mode and multimode transmission links and estimate the link capacity based on a calculation of mutual information. We also extract the complex amplitude channel estimations and mode-dependent loss with high accuracy.Comment: submitted to The Optical Networking and Communication Conference (OFC) 201

Taburan, kepelbagaian dan sepsis kelawar di tiga kawasan habitat vegetasi di hutan Sukau, Sandakan , Sabah

This research was carried out with the aim to record and compare information on the diversity, distribution and abundance of bat species at three different habitats of Sukau Rainforest. These were the primary forest, oil palm plantation and village area. Sampling was conducted for six days at each habitat using three mist net and a sweep net. A total of248 individuals of 15 species were caught in this study. Results showed that the village area has the highest bat diversity (H'=1.9) followed by primary forest (H'=I.4). The oil palm plantation area recorded the lowest diversity (H'=O.9). The presence of Sungai Kinabatangan nearby, the close proximity of Gua Keruak, the presence of human settlements and the mixed vegetation were identified to contribute to the high diversity at the village area. It was expected that the primary forest area has higher bat diversity as compared to the oil palm plantation area due to the abundance of food available for bats at this forest and the presence of undisturbed roosting sites. In contrast, the lower diversity recorded at the oil palm plantation was probably because of the less abundance of food available for bats particularly nocturnal insects which is the main diet of Microchiropterans. However, the occurrence of Megachiropterans was high at the oil palm plantation area which is probably because of the presence of oil palm fruits. It can be concluded from this study that there is a difference in terms of bat diversity and this maybe correlated with variation of the vegetations whereby suitability and availability of food and roosting sites play an important role

New constraint on cosmological variation of the proton-to-electron mass ratio from Q0528-250

Molecular hydrogen transitions in quasar spectra can be used to constrain variation in the proton-to-electron mass ratio, $\mu\equiv m_p/m_e$, at high redshifts ($z\gtrsim 2$). We present here an analysis of a new spectrum of the quasar Q0528$-$250, obtained on VLT/UVES (the Ultraviolet and Visual Echelle Spectrograph, on the Very Large Telescope), and analyse the well-known H$_2$ absorber at $z=2.811$ in this spectrum. For the first time we detect HD (deuterated molecular hydrogen) in this system with a column density of $\log_{10}(N/\mathrm{cm^{-2}})=13.27 \pm 0.07$; HD is sensitive to variation in $\mu$, and so we include it in our analysis. Using 76 H$_2$ and 7 HD transitions we constrain variation in $\mu$ from the current laboratory value to be $\Delta\mu/\mu = (0.3\pm 3.2_\mathrm{stat} \pm 1.9_\mathrm{sys})\times 10^{-6}$, which is consistent with no cosmological variation in $\mu$, as well as with previous results from other H$_2$/HD absorbers. The main sources of systematic uncertainty relate to accurate wavelength calibration of the spectra and the re-dispersion of multiple telescope exposures onto the one pixel grid.Comment: 30 pages, 6 figures + 14 supplementary figures. Accepted for publication for MNRA

Strategies for the hyperpolarization of acetonitrile and related Ligands by SABRE

(Chemical Equation Presented) We report on a strategy for using SABRE (signal amplification by reversible exchange) for polarizing 1H and 13C nuclei of weakly interacting ligands which possess biologically relevant and nonaromatic motifs. We first demonstrate this via the polarization of acetonitrile, using Ir(IMes)(COD)Cl as the catalyst precursor, and confirm that the route to hyperpolarization transfer is via the J-coupling network. We extend this work to the polarization of propionitrile, benzylnitrile, benzonitrile, and trans-3-hexenedinitrile in order to assess its generality. In the 1H NMR spectrum, the signal for acetonitrile is enhanced 8-fold over its thermal counterpart when [Ir(H)2(IMes)(MeCN)3]+ is the catalyst. Upon addition of pyridine or pyridine-d5, the active catalyst changes to [Ir(H)2(IMes)- (py)2(MeCN)]+ and the resulting acetonitrile 1H signal enhancement increases to 20- and 60-fold, respectively. In 13C NMR studies, polarization transfers optimally to the quaternary 13C nucleus of MeCN while the methyl 13C is hardly polarized. Transfer to 13C is shown to occur first via the 1H - 1H coupling between the hydrides and the methyl protons and then via either the 2J or 1J couplings to the respective 13Cs, of which the 2J route is more efficient. These experimental results are rationalized through a theoretical treatment which shows excellent agreement with experiment. In the case of MeCN, longitudinal two-spin orders between pairs of 1H nuclei in the three-spin methyl group are created. Two-spin order states, between the 1H and 13C nuclei, are also created, and their existence is confirmed for Me13CN in both the 1H and 13C NMR spectra using the Only Parahydrogen Spectroscopy protocol

Fibre device estimation techniques for SDM transmission

Space Division Multiplexing presents new impairments such as mode-dependent loss and. Differential mode dispersion, challenging to measure conventional processes. We discuss the feasibility of spatially diverse swept wavelength interferometry and digital holography techniques capable of measuring these characteristics, obtaining transfer matrices of devices

10 Spatial Mode Transmission Using Low Differential Mode Delay 6-Lp Fiber Using All-Fiber Photonic Lanterns

To unlock the cost benefits of space division multiplexing transmission systems, higher spatial multiplicity is required. Here, we investigate a potential route to increasing the number of spatial mode channels within a single core few-mode fiber. Key for longer transmission distances and low computational complexity is the fabrication of fibers with low differential mode group delays. As such in this work, we combine wavelength and mode-division multiplexed transmission over a 4.45 km low-DMGD 6-LP-mode fiber by employing low-loss all-fiber 10-port photonic lanterns to couple light in and out of the fiber. Hence, a minimum DMGD of 0.2 ns (maximum 0.357 ns) is measured after 4.45 km. Instrumental to the multi-mode transmission system is the employed time-domain- SDM receiver, allowing 10 spatial mode channels (over both polarizations) to be captured using only 3 coherent receivers and real-time oscilloscopes in comparison with 10 for conventional methods. The spatial channels were unraveled using 20 × 20 multiple-input multiple-output digital signal processing. By employing a novel round-robin encoding technique, stable performance over a long measurement period demonstrates the feasibility of 10x increase in single-core multi-mode transmission

Optical Crosstalk Reduction Using Amplified Spontaneous Emission (Ase)

We employ spectrally filtered amplified spontaneous emission as the signal carrier and matched local oscillator to mitigate optical crosstalk. We demonstrate polarization crosstalk reduction in single-mode fiber transmission and modal crosstalk reduction over multimode fiber