In recent decades, sustained theoretical and software developments have clearly established that representation analysis and magnetic symmetry groups are complementary concepts that should be used together in the investigation and description of magnetic structures. Historically, they were considered alternative approaches, but currently, magnetic space groups and magnetic superspace groups can be routinely used together with representation analysis, aided by state-of-the-art software tools. After exploring the historical antagonism between these two approaches, we emphasize the significant advancements made in understanding and formally describing magnetic structures by embracing their combined use.

We report the synthesis and structures of two transition-metal complexes involving 2-(2-hy­droxy­phen­yl)benzimidazole (2hpbi – a ligand of inter­est for its photoluminescent applications), with cobalt, namely, bis­[μ-2-(1H-1,3-benzo­diazol-2-yl)phenolato]bis­[ethanol(thio­cyanato)­cobalt(II)], [Co2(C13H9N2O)2(NCS)2(C2H6O)2], (1), and manganese, namely, bis­[μ-2-(1H-1,3-benzo­diazol-2-yl)phenolato]bis­{[2-(1H-1,3-benzo­diazol-2-yl)phenolato](thio­cyanato)­mang­an­ese(III)} dihydrate, [Mn2(C13H9N2O)4(NCS)2]·2H2O, (2). These structures are two recent examples of a fruitful collaboration between researchers at the Laboratoire de Chimie de Coordination Organique/Organic Coordination Chemistry Laboratory (LCCO), University of Dakar, Senegal and the National Crystallography Service (NCS), School of Chemistry, University Southampton, UK. This productive partnership was forged through meeting at Pan-African Conferences on Crystallography and quickly grew as the plans for the AfCA (African Crystallographic Association) developed. This article therefore also showcases this productive partnership, in celebration of the IUCr's 75 year anniversary and the recent inclusion of AfCA as a Regional Associate of the IUCr.

Two new copper dimers, namely, bis­(dimethyl sulfoxide)­tetra­kis­(μ-pyrene-1-carboxyl­ato)dicopper(Cu—Cu), [Cu2(C17H9O2)4(C2H6OS)2] or [Cu2(pyr-COO−)4(DMSO)2] (1), and bis­(di­methyl­formamide)­tetra­kis­(μ-pyrene-1-carboxyl­ato)dicopper(Cu—Cu), [Cu2(C17H9O2)4(C3H7NO)2] or [Cu2(pyr-COO−)4(DMF)2] (2) (pyr = pyrene), were synthesized from the reaction of pyrene-1-carb­oxy­lic acid, copper(II) nitrate and tri­ethyl­amine from solvents DMSO and DMF, respectively. While 1 crystallized in the space group Poverline{1}, the crystal structure of 2 is in space group P21/n. The Cu atoms have octa­hedral geometries, with four oxygen atoms from carboxyl­ate pyrene ligands occupying the equatorial positions, a solvent mol­ecule coordinating at one of the axial positions, and a Cu⋯Cu contact in the opposite position. The packing in the crystal structures exhibits π–π stacking inter­actions and short contacts through the solvent mol­ecules. The Hirshfeld surfaces and two-dimensional fingerprint plots were generated for both compounds to better understand the inter­molecular inter­actions and the contribution of heteroatoms from the solvent ligands to the crystal packing. In addition, a Cu2+/Cu1+ quasi-reversible redox process was identified for compound 2 using cyclic voltammetry that accounts for a diffusion-controlled electron-donation process to the Cu dimer.

Two compounds, (S)-8-{[(tert-butyl­dimethyl­sil­yl)­oxy]meth­yl}-1-[(2,2,4,6,7-penta­methyl-2,3-di­hydro­benzo­furan-5-yl)sulfon­yl]-1,3,4,6,7,8-hexa­hydro-2H-pyrimido[1,2-a]pyrimidin-1-ium tri­fluoro­methane­sulfonate, C27H46N3O4SSi+·CF3O3S−, (1) and (S)-8-(iodo­meth­yl)-1-tosyl-1,3,4,6,7,8-hexa­hydro-2H-pyrimido[1,2-a]pyrimidin-1-ium iodide, C15H21IN3O2S+·I−, (2), have been synthesized and characterized. They are bicyclic guanidinium salts and were synthesized from N-(tert-but­oxy­carbon­yl)-l-me­thio­nine (Boc-l-Met-OH). The guanidine is protected by a 2,2,4,6,7-penta­methyl­dihydro­benzo­furan-5-sulfonyl (Pbf, 1) or a tosyl (2) group. In the crystals of both compounds, the guanidinium group is almost planar and the N–H forms an intra­molecular hydrogen bond in a six-membered ring to the oxygen atom of the sulfonamide protecting group.

The major principles and requirements of asymmetric and inclined double-crystal monochromators are re-examined and presented to guide their design and development for significantly reducing heat load density and gradient on the monochromators of fourth-generation synchrotron light sources and X-ray free-electron lasers.

X-ray reflectometry (XRR) is a powerful tool for probing the structural characteristics of nanoscale films and layered structures, which is an important field of nanotechnology and is often used in semiconductor and optics manufacturing. This study introduces a novel approach for conducting quantitative high-resolution millisecond monochromatic XRR measurements. This is an order of magnitude faster than in previously published work. Quick XRR (qXRR) enables real time and in situ monitoring of nanoscale processes such as thin film formation during spin coating. A record qXRR acquisition time of 1.4 ms is demonstrated for a static gold thin film on a silicon sample. As a second example of this novel approach, dynamic in situ measurements are performed during PMMA spin coating onto silicon wafers and fast fitting of XRR curves using machine learning is demonstrated. This investigation primarily focuses on the evolution of film structure and surface morphology, resolving for the first time with qXRR the initial film thinning via mass transport and also shedding light on later thinning via solvent evaporation. This innovative millisecond qXRR technique is of significance for in situ studies of thin film deposition. It addresses the challenge of following intrinsically fast processes, such as thin film growth of high deposition rate or spin coating. Beyond thin film growth processes, millisecond XRR has implications for resolving fast structural changes such as photostriction or diffusion processes.

A systematic procedure is introduced for modeling charge-neutral non-polar surfaces of ionic minerals containing polyatomic anions. By integrating distance- and charge-based clustering to identify chemical species within the mineral bulk, our pipeline, PolyCleaver, renders a variety of theoretically viable surface terminations. As a demonstrative example, this approach was applied to forsterite (Mg2SiO4), unveiling a rich interface landscape based on interactions with formaldehyde, a relevant multifaceted molecule, and more particularly in prebiotic chemistry. This high-throughput method, going beyond techniques traditionally applied in the modeling of minerals, offers new insights into the potential catalytic properties of diverse surfaces, enabling a broader exploration of synthetic pathways in complex mineral systems.

In antiquity, Pb was a common element added in the production of large bronze artifacts, especially large statues, to impart fluidity to the casting process. As Pb does not form a solid solution with pure Cu or with the Sn–Cu alloy phases, it is normally observed in the metal matrix as globular droplets embedded within or in interstitial positions among the crystals of Sn-bronze (normally the α phase) as the last crystallizing phase during the cooling process of the Cu–Sn–Pb ternary melt. The disequilibrium Sn content of the Pb droplets has recently been suggested as a viable parameter to detect modern materials [Shilstein, Berner, Feldman, Shalev & Rosenberg (2019). STAR Sci. Tech. Archaeol. Res. 5, 29–35]. The application assumes a time-dependent process, with a timescale of hundreds of years, estimated on the basis of the diffusion coefficient of Sn in Pb over a length of a few micrometres [Oberschmidt, Kim & Gupta (1982). J. Appl. Phys. 53, 5672–5677]. Therefore, Pb inclusions in recent Sn-bronze artifacts are actually a metastable solid solution of Pb–Sn containing ∼3% atomic Sn. In contrast, in ancient artifacts, unmixing processes and diffusion of Sn from the micro- and nano-inclusions of Pb to the matrix occur, resulting in the Pb inclusions containing a substantially lower or negligible amount of Sn. The Sn content in the Pb inclusions relies on accurate measurement of the lattice parameter of the phase in the Pb–Sn solid solution, since for low Sn values it closely follows Vegard's law. Here, several new measurements on modern and ancient samples are presented and discussed in order to verify the applicability of the method to the detection of modern artwork pretending to be ancient.

Scintillator-based ZnS:Ag/6LiF neutron detectors have been under development at ISIS for more than three decades. Continuous research and development aim to improve detector capabilities, achieve better performance and meet the increasingly demanding requirements set by neutron instruments. As part of this program, a high-efficiency 2D position-sensitive scintillator detector with wavelength-shifting fibres has been developed for neutron-diffraction applications. The detector consists of a double scintillator-fibre layer to improve detection efficiency. Each layer is made up of two orthogonal fibre planes placed between two ZnS:Ag/6LiF scintillator screens. Thin reflective foils are attached to the front and back scintillators of each layer to minimize light cross-talk between layers. The detector has an active area of 192 × 192 mm with a square pixel size of 3 × 3 mm. As part of the development process of the double-layer detector, a single-layer detector was built, together with a prototype detector in which the two layers of the detector could be read out separately. Efficiency calculations and measurements of all three detectors are discussed. The novel double-layer detector has been installed and tested on the SXD diffractometer at ISIS. The detector performance is compared with the current scintillator detectors employed on SXD by studying reference crystal samples. More than a factor of 3 improvement in efficiency is achieved with the double-layer wavelength-shifting-fibre detector. Software routines for further optimizations in spatial resolution and uniformity of response have been implemented and tested for 2D detectors. The methods and results are discussed in this manuscript.

Controlling the shape and size dispersivity and crystallinity of nanoparticles (NPs) has been a challenge in identifying these parameters' role in the physical and chemical properties of NPs. The need for reliable quantitative tools for analyzing the dispersivity and crystallinity of NPs is a considerable problem in optimizing scalable synthesis routes capable of controlling NP properties. The most common tools are electron microscopy (EM) and X-ray scattering techniques. However, each technique has different susceptibility to these parameters, implying that more than one technique is necessary to characterize NP systems with maximum reliability. Wide-angle X-ray scattering (WAXS) is mandatory to access information on crystallinity. In contrast, EM or small-angle X-ray scattering (SAXS) is required to access information on whole NP sizes. EM provides average values on relatively small ensembles in contrast to the bulk values accessed by X-ray techniques. Besides the fact that the SAXS and WAXS techniques have different susceptibilities to size distributions, SAXS is easily affected by NP–NP interaction distances. Because of all the variables involved, there have yet to be proposed methodologies for cross-analyzing data from two techniques that can provide reliable quantitative results of dispersivity and crystallinity. In this work, a SAXS/WAXS-based methodology is proposed for simultaneously quantifying size distribution and degree of crystallinity of NPs. The most reliable easy-to-access size result for each technique is demonstrated by computer simulation. Strategies on how to compare these results and how to identify NP–NP interaction effects underneath the SAXS intensity curve are presented. Experimental results are shown for cubic-like CeO2 NPs. WAXS size results from two analytical procedures are compared, line-profile fitting of individual diffraction peaks in opposition to whole pattern fitting. The impact of shape dispersivity is also evaluated. Extension of the proposed methodology for cross-analyzing EM and WAXS data is possible.

Conformational change mediates the biological functions of macromolecules. Crystallographic measurements can map these changes with extraordinary sensitivity as a function of mutations, ligands and time. A popular method for detecting structural differences between crystallographic data sets is the isomorphous difference map. These maps combine the phases of a chosen reference state with the observed changes in structure factor amplitudes to yield a map of changes in electron density. Such maps are much more sensitive to conformational change than structure refinement is, and are unbiased in the sense that observed differences do not depend on refinement of the perturbed state. However, even modest changes in unit-cell properties can render isomorphous difference maps useless. This is unnecessary. Described here is a generalized procedure for calculating observed difference maps that retains the high sensitivity to conformational change and avoids structure refinement of the perturbed state. This procedure is implemented in an open-source Python package, MatchMaps, that can be run in any software environment supporting PHENIX [Liebschner et al. (2019). Acta Cryst. D75, 861–877] and CCP4 [Agirre et al. (2023). Acta Cryst. D79, 449–461]. Worked examples show that MatchMaps `rescues' observed difference electron-density maps for poorly isomorphous crystals, corrects artifacts in nominally isomorphous difference maps, and extends to detecting differences across copies within the asymmetric unit or across altogether different crystal forms.

X-ray photon correlation spectroscopy (XPCS) is a powerful tool for the investigation of dynamics covering a broad range of timescales and length scales. The two-time correlation function (TTC) is commonly used to track non-equilibrium dynamical evolution in XPCS measurements, with subsequent extraction of one-time correlations. While the theoretical foundation for the quantitative analysis of TTCs is primarily established for equilibrium systems, where key parameters such as the diffusion coefficient remain constant, non-equilibrium systems pose a unique challenge. In such systems, different projections (`cuts') of the TTC may lead to divergent results if the underlying fundamental parameters themselves are subject to temporal variations. This article explores widely used approaches for TTC calculations and common methods for extracting relevant information from correlation functions, particularly in the light of comparing dynamics in equilibrium and non-equilibrium systems.

Structural modelling of operando pair distribution function (PDF) data of complex functional materials can be highly challenging. To aid the understanding of complex operando PDF data, this article demonstrates a toolbox for PDF analysis. The tools include denoising using principal component analysis together with the structureMining, similarityMapping and nmfMapping apps available through the online service `PDF in the cloud' (PDFitc, https://pdfitc.org/). The toolbox is used for both ex situ and operando PDF data for 3 nm TiO2-bronze nanocrystals, which function as the active electrode material in a Li-ion battery. The tools enable structural modelling of the ex situ and operando PDF data, revealing two pristine TiO2 phases (bronze and anatase) and two lithiated LixTiO2 phases (lithiated versions of bronze and anatase), and the phase evolution during galvanostatic cycling is characterized.

Coherent diffractive imaging with X-ray free-electron lasers could enable structural studies of macromolecules at room temperature. This type of experiment could provide a means to study structural dynamics on the femtosecond timescale. However, the diffraction from a single protein is weak compared with the incoherent scattering from background sources, which negatively affects the reconstruction analysis. This work evaluates the effects of the presence of background on the analysis pipeline. Background measurements from the European X-ray Free-Electron Laser were combined with simulated diffraction patterns and treated by a standard reconstruction procedure, including orientation recovery with the expand, maximize and compress algorithm and 3D phase retrieval. Background scattering did have an adverse effect on the estimated resolution of the reconstructed density maps. Still, the reconstructions generally worked when the signal-to-background ratio was 0.6 or better, in the momentum transfer shell of the highest reconstructed resolution. The results also suggest that the signal-to-background requirement increases at higher resolution. This study gives an indication of what is possible at current setups at X-ray free-electron lasers with regards to expected background strength and establishes a target for experimental optimization of the background.

X-ray scattering has become a major tool in the structural characterization of nanoscale materials. Thanks to the widely available experimental and computational atomic models, coordinate-based X-ray scattering simulation has played a crucial role in data interpretation in the past two decades. However, simulation of real-space pair distance distribution functions (PDDFs) from small- and wide-angle X-ray scattering, SAXS/WAXS, has been relatively less exploited. This study presents a comparison of PDDF simulation methods, which are applied to molecular structures that range in size from β-cyclo­dextrin [1 kDa molecular weight (MW), 66 non-hydrogen atoms] to the satellite tobacco mosaic virus capsid (1.1 MDa MW, 81 960 non-hydrogen atoms). The results demonstrate the power of interpretation of experimental SAXS/WAXS from the real-space view, particularly by providing a more intuitive method for understanding of partial structure contributions. Furthermore, the computational efficiency of PDDF simulation algorithms makes them attractive as approaches for the analysis of large nanoscale materials and biological assemblies. The simulation methods demonstrated in this article have been implemented in stand-alone software, SolX 3.0, which is available to download from https://12idb.xray.aps.anl.gov/solx.html.

This article presents a web-based framework to build a database without in-depth programming knowledge given a set of CIF dictionaries and a collection of CIFs. The framework consists of two main elements: the public site that displays the information contained in the CIFs in an ordered manner, and the restricted administrative site which defines how that information is stored, processed and, eventually, displayed. Thus, the web application allows users to easily explore, filter and access the data, download the original CIFs, and visualize the structures via JSmol. The modulated structures open database B-IncStrDB, the official International Union of Crystallography repository for this type of material and available through the Bilbao Crystallographic Server, has been re-implemented following the proposed framework.

SUBGROUPS is a free online program at the Bilbao Crystallographic Server (https://www.cryst.ehu.es/). It permits the exploration of all possible symmetries resulting from the distortion of a higher-symmetry parent structure, provided that the relation between the lattices of the distorted and parent structures is known. The program calculates all the subgroups of the parent space group which comply with this relation. The required minimal input is the space-group information of the parent structure and the relation of the unit cell of the distorted or pseudo-symmetric structure with that of the parent structure. Alternatively, the wavevector(s) observed in the diffraction data characterizing the distortion can be introduced. Additional conditions can be added, including filters related to space-group representations. The program provides very detailed information on all the subgroups, including group–subgroup hierarchy graphs. If a Crystallographic Information Framework (CIF) file of the parent high-symmetry structure is uploaded, the program generates CIF files of the parent structure described under each of the chosen lower symmetries. These CIF files may then be used as starting points for the refinement of the distorted structure under these possible symmetries. They can also be used for density functional theory calculations or for any other type of analysis. The power and efficiency of the program are illustrated with a few examples.

The Takagi–Taupin equations are solved in their simplest form (zero deformation) to obtain the Bragg-diffracted and transmitted complex amplitudes. The case of plane-parallel crystal plates is discussed using a matrix model. The equations are implemented in an open-source Python library crystalpy adapted for numerical applications such as crystal reflectivity calculations and ray tracing.

Jason Isbell and Amanda Shires perform onstage at the 13th annual Americana Music Association Honors and Awards Show at the Ryman Auditorium on September 17, 2014 in Nashville, Tennessee. ; Credit: Rick Diamond/Getty Images for Americana Music

Singer-songwriter Jason Isbell swept the major awards Wednesday night at the Americana Honors & Awards, creating another special moment with his wife, Amanda Shires.

Isbell won artist, album and song of the year during the 13th annual awards show Wednesday night at Ryman Auditorium in Nashville, Tennessee. Though surprisingly ignored by Grammy Awards voters, Isbell's album of the year winner "Southeastern" reverberated through the Americana community and made many of 2013's best-of lists.

He performed song of the year "Cover Me Up" with Shires, a significant figure on the album as muse and collaborator.

"I wrote this song for my wife," Isbell said. "I've had a lot of people ask me to dedicate it to their wives, girlfriends or cousin's wife or something strange like that. This was probably the hardest song I ever had to write because I wrote it for her and then I played it for her. It was very difficult. Do the things that scare you. That's the good stuff."

Isbell was one of this year's top nominees along with Rosanne Cash and Robert Ellis. Each had three nominations and all were up for artist, album and song of the year.

Many of the top nominees and honors recipients performed, including all five emerging artist nominees. Former couple Patty Griffin and Robert Plant made a surprise appearance and sang their collaboration "Ohio."

Sturgill Simpson, something of a modern cosmic cowboy, earned emerging artist of the year and the Milk Carton Kids took group/duo of the year. And Buddy Miller, now executive music producer for the television show "Nashville" and theAmericana's winningest performer, won his fifth instrumentalist of the year award.

The Americana Music Association also honored several pioneering musicians. Loretta Lynn received the lifetime achievement award for songwriting from Kacey Musgraves and Angaleena Presley.

"The truth is we both might cry giving out this award," Musgraves said.

Lynn, writer of some of country music's most important female empowerment songs, accepted the award in a sparkly lavender dress and her usual humble manner.

"When they told me I was going to get this award," she told the crowd, "I said, 'Naw, you got the wrong one.'"

Jackson Browne received the Spirit of Americana-Free Speech in Music award, Flaco Jimenez received the lifetime achievement award for instrumentalist and Taj Mahal earned the lifetime achievement award for performance.

"I was affected deeply by American music, near and far — my mother's interest in Southern music and my dad's interest in jazz and bebop and classical, all that kind of stuff," Mahal said in an interview. "But this music here, if you get this music, you can go anywhere in the world with it. For me, I play for the goddess of music. People ask me what I do and I go, deep Americana."

We explore a special class of periodic graphs, ladder graphs, whose edges can coincide when embedded vertices are moved. Many of these exhibit additional non-crystallographic graph symmetries.

Off-Ramp's Rosalie Atkinson, her dad, and her dad's mustache circa quite a few facial hair fads ago. (Credit: Rosalie Atkinson); Credit:

These cool tips would have landed in your in-box with no extra effort on your part IF you'd subscribed to Off-Ramp's weekly e-newsletter. We send out a recommendation every week, along with all the latest Off-Ramp news. Sign up now!

Father's Day is coming quick! But before you run to Walgreen's Sunday morning to find they are sold out of touching cards for the father figure in your life, let us help you curate a fun day out with dad.

Thinking about significant-figure holidays, there seems to be more of a method for planning Mother's Day surprises. You get the breakfast-in-bed together quietly for mom or grandma or aunt, etc., wake her up early on a Sunday, she quickly scrambles to hide the fact that she decided to sleep pantsless, then you present her with some poorly made waffles and juice which she will inevitably spill on her white sheets.

But what about your father-figure? A card? Yes. Maybe a golf ball? Okay. A mug you Amazon Prime'd to him in a last-ditch effort that says "Captain Dad?" Don't do that. It might be weird to ask the men in our life, "What the hell do you want?" under the veil of Father's Day, so to spare you we've compiled some ideas.

Idea #1: Take your father to get pampered! Spa days are are not gender-specific and when was the last time someone even looked at your dad's feet? Hollywood salon Hammer & Nails focuses on men's cuticle care. Treat your dad to a MANi-pedi, and he'll also enjoy a glass of bourbon, a personal flatscreen TV with noise-cancelling headphones, all while relaxing in an over-sized leather chair. Although Hammer & Nails targets men, women are also welcome. 8257 Melrose Ave, Los Angeles, CA 90046.

Idea #2: Take in a tasting. Greenbar Distillery is LA's first spirit distillery since the Prohibition was repealed in 1933. They boast the "World's largest portfolio of organic spirits." Take a tour, pose with their gigantic copper stills and whiskey barrels, sign up for a class, or just taste some of their 16 spirits and five bitters. Their tours are reserved for Saturday so consider this a pregame to your other Father's Day plans. 2459 E 8th St, Los Angeles, California, 90021.

Idea #3: Younger kids? Let's play! Sunday, the Autry Museum of the American West is opening a new exhibit about the history of play. Experience the next generation of toys and games, but also see how they differ across generations and cultures. The exhibit is very interactive and the museum is in beautiful Griffith Park, so there are plenty of hiking trails, picnic spots, or viewpoints to snap some pictures with your man/men.  234 Museum Drive, Los Angeles, CA 90065 .

Idea #4: The Abbey's annual Father's Day Brunch. For the past six years, The Abbey in West Hollywood has hosted a brunch in celebration of LGBT families or those considering starting one. There will be a breakfast buffet from 9am-1pm and attendees can get more info about fostering opportunities. $18 per person. 692 N Robertson Blvd, West Hollywood, CA 90069 .

Much love to all the dads, uncles, grandpas, friends, and men nurturing other people!

This content is from Southern California Public Radio. View the original story at SCPR.org.

Catcus garden at the Getty Museum (Creative Commons via Flickr user Prayitno); Credit:

'Off the 405' is a free night of music, agua-fresca cocktails, and immeasurable views. The Getty Museum stacks their performance calendar with great artists, sometimes indie, sometimes local, always energetic; this Saturday's line-up features the great, all-Angelena rock group, La Luz.

The band's sound was deemed "surf-noir" by Stereogum, complete with bright lyrics and haunting harmonies. The band quickly gained notoriety in LA for the energy of their live performances, and Soul-Train style dance competitions during their sets.

https://www.youtube.com/watch?v=WlUiwINM5lM

'Off the 405' takes place from 6pm to 9pm and will feature a cash bar, some light bites, and an opening DJ set as the sun goes down.

It doesn't get more scenic and quintessentially Los Angeles than this. So enjoy a free night out, a craft cocktail, and some fantastic music. Don't forget to snap a skyline-selfie and send it to Team Off-Ramp!

The Getty Center is located at 1200 Getty Center Drive in LA, roughly 12 miles northwest of downtown. 

This content is from Southern California Public Radio. View the original story at SCPR.org.

Stones Throw DJ Peanut Butter Wolf spinning.; Credit: Photo by Maris Kaplan via Flickr Creative Commons

For the final Off-Ramp recommendation, we scoured the internet far and wide for options that really speak to Angeleno culture and the show's mission of spreading LA love far and wide. However, upon thoughtful reflection, we've decided the show has always been about getting out and trying fun, new things and learning something. Every engaged community member getting out in Southern California adds to the cultural wealth of the city and so this weekend, let's get out and play/shake it fast and loose.

LA has multiple cheap or free events this weekend to get you out into the city, meeting new people, and that will have you considering shaking your groove-thang on a sliding scale, from gingerly to furiously.

1. Dance DTLA

During summer, The Music Center celebrates multicultural dance with alternating lessons and performances, each Friday. Friday the 30th will feature a DJ set curated by local label Stones Throw's golden boy Peanut Butter Wolf. The night will include sets by Peanut Butter Wolf, DJ Steve, Vex Ruffin, and Jimi Hey playing the 80's and 90's hits that inspired their music careers. The performances will include Funk, Soul, Disco, New Wave, and Rap reimaginings. The event is entirely free and begins at 9pm at 200 N Grand Ave, Los Angeles, 90012.

2. Grand performances: First peoples, New voices.

As part of their free summer concert series, Grand Performances has curated a line-up of fantastic Hip-Hop performers, emboldened with an indigenous perspective. The MCs are encouraging Hip-Hop fans to come experience "raw lyrics, urgent poetry, and iconic dance" by a selection of performers representing native Southern California groups, spreading their culture and passion. The event runs 8pm-10:30pm on Saturday at 350 S Grand Ave, Los Angeles, 90071.

3. House Party LA + DoLA: The Biggest Dollar Party Ever!

Event group House Party LA has outdone themselves on this Saturday's event. Yes, there will be great performers: Tiger, Suga Shay, Gianna Lee, and DJ Damage. Yes, admission is $1, or $5 without a facebook RSVP. But here is the real draw: slices of pizza are just $1. Cheap fun, music, and cheap pizza? That is the selling point to end all selling points. Unless they were giving out free cars and puppies... which we can't rule out just yet, you had best to go and investigate for yourself. The event starts at 9pm and will run until 2am at the Regent, located at 448 S Main St, Los Angeles, 90013.

A fond farewell to all the Off-Ramp recommendation readers and takers. It's been a pleasure.

This content is from Southern California Public Radio. View the original story at SCPR.org.

A teen gets a dose of Pfizer's COVID-19 vaccine at Holtz Children's Hospital in Miami on May 18. Nearly 7 million U.S. teens and pre-teens (ages 12 through 17) have received at least one dose of a COVID-19 vaccine, so far, the CDC says.; Credit: Eva Marie Uzcategui/Bloomberg via Getty Images

It's been a little more than a month since adolescents as young as 12 became eligible in the United States to receive the Pfizer vaccine against COVID-19, and nearly all reports have been positive: The vaccine is very effective in this age group, and the vast majority of kids experience mild side effects, if any — the same sore arm or mild flu-like symptoms seen among adults who get the shot.

The Centers for Disease Control and Prevention has recommended that everyone 12-years-old and older get vaccinated against COVID-19, and the rollout is well underway: According to the CDC, nearly 7 million U.S. teens and pre-teens (ages 12 through 17) have received at least one dose of a COVID-19 vaccine, so far.

Still, soon after the FDA authorized the use of Pfizer's vaccine in young people, federal agencies began receiving reports of mild chest pain or other signs of possible heart inflammation (known as myocarditis) in a very small percentage of recently vaccinated teens.

CDC director Rochelle Walensky said at a White House briefing Friday that there have been more than 300 cases of heart inflammation reported among more than 20 million teens and young adults who have received one of the vaccines made by Moderna or Pfizer. She said that in the "vast majority" of cases, the inflammation went away.

An expert advisory committee to the health agency is expected to review the cases in more depth at a meeting Friday.

So, in the meantime, should parents of teens hesitate to have their kids vaccinated against COVID-19? Vaccine experts and the American Academy of Pediatrics say no, don't hesitate. It's good for doctors and patients to be aware that there might be a connection between the mRNA vaccines and heart inflammation, and to report to their pediatrician anything they see in that first week after vaccination. But it is also important, the CDC notes, to recognize that even if this does turn out to be an extremely rare side effect of the vaccine, "most patients who received care responded well to medicine and rest and quickly felt better." And the serious risks of COVID -19 — even for young healthy people — outweigh the risks of any possible side effects from the vaccine. Here are some questions you may have, and what's known:

What exactly is myocarditis?

Myocarditis is an inflammation of the heart muscle, and pericarditis, also being investigated, is an inflammation of the sac around the heart.

Long before the pandemic, thousands of cases of myocarditis were diagnosed in the U.S. and around the world each year, often triggered by the body's immune response to infections. SARS-CoV-2 can trigger it, and so can cold viruses, and staph and strep and HIV. Other causes include toxins and allergies.

Symptoms include chest pain and shortness of breath. It's often mild enough to go unnoticed, but a full-blown case in adults can cause arrhythmias and heart failure that require careful treatment with multiple medications, and several months of strict rest. In a case study of seven teenagers who got myocarditis following vaccination published last week in the journal Pediatrics, all seven got better after routine treatment with anti-inflammatory drugs.

Pediatric cardiologist Dr. Stuart Berger of the Northwestern University Feinberg School of Medicine, a spokesperson for the American Academy of Pediatrics, says vaccine-related myocarditis in teens is not all that worrisome. "Although they appear with some symptoms of chest pain, and maybe some findings on EKGs, all of the cases we've seen have been on the mild end of the spectrum," he says.

So, what's the concern?

Several hundred reports about the inflammation have been filed with the federal government's Vaccine Adverse Event Reporting System (VAERS); that's a repository of reports sent in by health professionals and patients about any health events they spot in the hours or days after vaccinations. Many of the events reported turn out to be coincidental — not caused by a vaccine. The database is just meant as a starting point for further investigation and not proof of cause and effect. But as NPR's Geoff Brumfiel noted this week, "when millions of people are vaccinated within a short period, the total number of these reported events can look big."

That said, anecdotes reported by doctors in medical journals and reports to VAERS suggest that both of the mRNA vaccines authorized for use in the U.S. — the Pfizer and Moderna vaccines — might slightly increase the incidence of myocarditis in young people. In 2003, a report in the New England Journal of Medicine estimated the background incidence of myocarditis to be 1.13 cases in 100,000 children per year.

Paul Offit, professor of pediatrics at the Children's Hospital of Philadelphia and a member of a Food and Drug Administration vaccine advisory committee says there likely is a causal link between the heart inflammation some doctors are seeing in these teens and the second dose of vaccine. "I think it's real," he says, but hastens to add that the effect is exceedingly small – based on the data collected so far, maybe one in 50,000 vaccinees between the ages of 16 and 39. "And the good news is at least so far it looks to be transient and self-resolving."

Still, maybe I should wait to get my teen vaccinated and see how this plays out?

Uhm, no, according to several vaccine experts contacted by NPR. And this is where a little math comes in handy.

"Take a stadium full of 100,000 people between the ages of 16 and 39, which is the subset that appears to be at greater risk," Offit says. "Vaccinate all of them, and two might get myocarditis." But if you don't vaccinate any of the 100,000, he estimates that about 1,300 would eventually get COVID-19. And those numbers are likely to increase this winter.

About one in 1,000 children who get COVID-19 have gone on to develop a condition called MIS-C (multisystem inflammatory syndrome in children), says Offit, and most of those kids have had some level of myocarditis. In addition, the new coronavirus has directly caused myocarditis in some children and adults. Which of the two stadiums in Offit's metaphor would have more cases of myocarditis — the vaccinated children or unvaccinated kids — is not known precisely. But Offit says he suspects it would be the unvaccinated group. And there's no doubt that 1,000 unvaccinated children would suffer more COVID-19-related illnesses. "A choice not to get a vaccine is not a choice to avoid myocarditis," he says. "It's a choice to take a different risk — and I would argue a more serious one" — of developing a bad case of COVID-19 or long-COVID or COVID-caused myocarditis.

Are the experts advising their own kids in this age group to get vaccinated?

Yes. "I understand people having concerns," says Dr. Judith Guzman-Cottrill. She's a parent and professor of pediatric infectious diseases at the Oregon Health and Science University, as well as the senior author on a small study that came out this month in the journal Pediatrics. In the report, Guzman-Cottrill and her colleagues analyzed the cases of seven boys around the country who developed myocarditis within four days of receiving the Pfizer-BioNTech vaccine.

She and her family recently faced the vaccination decision for her own 13-year-old daughter — and said a whole-hearted yes to the shot.

Guzman-Cottrill suspects there may turn out to be a slightly increased risk of heart inflammation from vaccination in young people, but she and her co-authors note in the Pediatrics report that a direct cause-and-effect connection — even in these seven cases — has yet to be established. And she's impressed that despite the millions of doses that have so far been delivered to teens, no clear and serious post-vaccination problems have shown up. "The emergency departments and urgent care clinics are not filled with teenagers complaining of chest pain," she says.

She's treated unvaccinated teens who developed severe myocarditis from an infection with the COVID-19 virus, and others who developed COVID-19 pneumonia and respiratory failure. Seeing those teens struggle — teens who lacked the powerful immune protection the vaccine provides — was enough for her to suggest vaccination to her daughter, who got her second vaccination earlier this week.

"She saw it as a pathway back to a normal post pandemic life," Guzman-Cottrill says.

And that's where public health comes in. "We really need a highly vaccinated student body when kids return to the classroom this fall," says Guzman-Cottrill, "so we don't see surges in COVID-19 cases."

Joanne Silberner, a former health policy correspondent for NPR, is a freelance journalist living in Seattle.

This content is from Southern California Public Radio. View the original story at SCPR.org.

Dr. Jill Baron, Director of the Powell Center, will present a webinar on how to develop a strong proposal for Working Group on November 19th, 2024, at 11am MT/1pm ET.

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Bridges make travel faster and more convenient, but, in an earthquake, these structures are subject to forces that can cause extensive damage and make them unsafe. Now civil and environmental engineer Petros Sideris of Texas A&M University is leading a National Science Foundation (NSF)-funded research project to investigate the performance of hybrid sliding-rocking (HSR) columns. HSR columns provide the same support as conventional bridge infrastructure columns but are more earthquake-resistant. HSR columns are a series of individual concrete segments held together by steel cables that allow for controlled sliding and rocking. This allows the columns to shift without damage, while post-tensioning strands ensure that at the end of an earthquake the columns are pushed back to their original position. Conventional bridges are cast-in-place monolithic concrete elements that are strong but inflexible. Structural damage in these bridge columns, typically caused by a natural disaster, often forces a bridge to close until repairs are completed. But bridges with HSR columns can withstand large earthquakes with minimal damage and require minor repairs, likely without bridge closures. Such infrastructure helps with post-disaster response and recovery and can save thousands in taxpayer dollars. In an earthquake, HSR columns provide "multiple advantages to the public," Sideris said. "By preventing bridge damage, we can maintain access to affected areas immediately after an event for response teams to be easily deployed, and help affected communities recover faster. In mitigating losses related to post-event bridge repairs and bridge closures, more funds can be potentially directed to supporting the recovery of the affected communities." According to Joy Pauschke, NSF program director for natural hazards engineering, "NSF invests in fundamental engineering research so that, in the future, the nation's infrastructure can be more resilient to earthquakes, hurricanes, and other forces of nature."

Image credit: Texas A&M University

This Web site was designed to be a clearing house for technical IT security queries. However, readers continue to submit a broad range of fascinating questions exploring the interface between technolo...

This Web site was designed to be a clearing house for technical IT security queries. However, readers continue to submit a broad range of fascinating questions exploring the interface between technolo...

This Web site was designed to be a clearing house for technical IT security queries. However, readers continue to submit a broad range of fascinating questions exploring the interface between technolo...

This Web site was designed to be a clearing house for technical IT security queries. However, readers continue to submit a broad range of fascinating questions exploring the interface between technolo...

; Credit: /Courtesy of TED

Part 3 of TED Radio Hour episode: An SOS From The Ocean

In 1998, Alasdair Harris went to Madagascar to research coral reefs. He's worked there ever since. He explains the true meaning of conservation he learned from the island's Indigenous communities.

About Alasdair Harris

Alasdair Harris is a marine biologist and the founder of the organization Blue Ventures. His organization seeks to catalyze and sustain locally-led marine conservation in coastal communities around the world.

His work focuses on rebuilding tropical fisheries and working with coastal people to increase their sources of income.

Harris holds a PhD in tropical marine ecology, and an honorary doctorate of science from the University of Edinburgh.

This segment of TED Radio Hour was produced by Matthew Cloutier and edited by Sanaz Meshkinpour. You can follow us on Twitter @TEDRadioHour and email us at TEDRadio@npr.org.

This content is from Southern California Public Radio. View the original story at SCPR.org.

The data in a QR code is a series of dots in a square grid. Each dot represents a one and each blank a zero in binary code, and the patterns encode sets of numbers, letters or both, including URLs.

“The technology services industry, at some level, is recession proof,” Premji said at the company’s 76th annual general meeting on Tuesday. “In good times, clients spend on new initiatives and business transformation and serving customers digitally. They focus on reducing costs when times are not so good,” he said addressing a question on inflation concerns.

​So, we think that now we are entering into earnings season with this business update and particularly the banking sector should do well, both PSU and private banks.

Scammers gonna scam scam scam, so before hunting for your tickets to a Taylor Swift gig or other in-demand events, learn how to stop fraudsters from leaving a blank space in your bank account

ESET researchers discovered a zero-day Telegram for Android exploit that allows sending malicious files disguised as videos

Here’s how to spot and dodge scams when searching for stuff on the classified ads website that offers almost everything under the sun

In the digital graveyard, a new threat stirs: Out-of-support devices becoming thralls of malicious actors

Ever alert to fresh money-making opportunities, fraudsters are blending physical and digital threats to steal drivers’ payment details

Watch out for schemes where fraudsters trick people into sharing verification codes so they can gain access to their phone numbers

However, telecom operators associations COAI recently said private 5G network deployments by system integrators may lead to operational inefficiencies, capital burden, and eventually prove to be counter-productive.

On Wednesday, the Union Cabinet approved the third revival package for the telecom PSU worth Rs 89,047 crores which also includes the allotment of 4G/5G spectrum through equity infusion.

“The task of coordinating, connecting and integrating all the work is what probably the Bharat 6G Alliance should do in enabling India's presence to be felt on the global telecommunications map,” Rajaraman said.

Priyank Kharge in his keynote at ET GCC Annual Conclave 2024 reiterates the purpose to establish Karnataka as a knowledge and skill capital topped with innovation and GCC policy for investments to follow.

After years of environmental destruction, China has spent billions of dollars on the world's largest reforestation program, converting a combined area nearly the size of New York and Pennsylvania back to forest.

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The survey was conducted with more than 20,000 engineering graduates from various streams across India. It revealed that the average score of women stood at 27% against 31% of men in 2020, which increased to 40% as against 39% of men in 2021, thereby showcasing how women were better prepared for employment than men. However, in 2020, the average score of women declined to 25% as against 28% of men, the first decline in three years mainly due to the adoption of the hybrid mode of learning.

A recent study shows how the public's use of parks and other green spaces in metropolitan areas can be tracked using anonymized GPS data from people's smartphones, which could help guide their management.

Your office isn’t just an office any more. It’s a park, a hotel, an airport lounge. In each case, your people need to have the same experience, whatever device they’re using. And you need complete control so you can manage your resources on the fly.

“This is definitely a tipping point. We are going from about 1 gigawatt of data center capacity to about 3 gigawatt as a country. And we are all set for that - whether it is within data center or inter-data center connectivity, from laying the fibre from the landing station into the data centers, all of that is something we are very well set to do.”