Sunday, October 20, 2019

3 Weeks to Go : Mercury Transit

Counting down for the Mercury Transit on November 11th, 2019. In the afternoon of November 11th, planet Mercury will be moving in front of the Sun. The planet will be seen as a small spot on the Sun's disk. Watch out :  do not look without protection to the Sun! Use solar eclipse glasses or a special solar filters to watch this. 


If you miss this one, don't worry, the next Mercury transit will be on November 13th, 2032.

See also my observation of the last Mercury Transit of May 9th, 2016 via this link and this link.

Astro links updated


I updated my most used astro links. See my blog and click "Usefull Links" or via this link.

Saturday, October 12, 2019

Nacht van de Duisternis - Helios in Langdorp



Deze avond staat in het teken van de duisternis. Op de Nacht van de Duisternis van 12 oktober 2019 doven verschillende gemeenten de verlichting voor een avond en kunnen inwoners even proeven van de rust en gezelligheid van een donkere nacht. Met Nacht van de Duisternis zetten Preventie Lichthinder en de Werkgroep Lichthinder (VVS) de impact van lichtvervuiling in de kijker.

Sterrenverening Helios zal vanaf 20h00 een kijkavond organiseren in Langdorp. Achter het Wolfscafe, aan de Demer, zullen telescopen staan om samen naar de maan en andere hemelobjecten te kijken. 


Friday, October 11, 2019

Einstein Telescope in Meuse-Rhine Euroregion


Will the most advanced gravitational-wave observatory be located at the border region between Louvain, Eindhoven and Aachen? There is a good chance!

This would be a great opportunity for our region. The established scientific institutions in the region offer a natural base for the leading researchers using the facility. The business community and the regional economy will benefit from its construction and from activities related to it. This is why scientists, business and governments are jointly exploring the Meuse-Rhine Euroregion’s candidacy to host the telescope.

The first detection of a gravitational wave on September 14, 2015, created a whole new field of research in physics and astronomy. As well as light and fast particles, scientists can now also observe ripples in space-time. They are the only kind of signal which cannot be deflected or blocked by matter in their path. No light is released when two black holes collide, but their gravitational waves are always measurable. As a result, physicists are now gathering new information about the nature of neutron stars, black holes and the universe immediately after the Big Bang.

How sensitive will be the new Einstein Telescope. According Prof. Dr. Frank Linde of the University of Amsterdam it can measure the level increase of one droplet in the IJsselmeer (1000sq km and 4,4m deep). The telescope has a design sensitivity of 22 decimal places : 0,00000000000000000000001. This means that it can detect differences in distance ten thousand times smaller than the size of the protons in an atomic nucleus. To achieve that incredible accuracy, the observatory bounces laser beams up and down along 10km long tunnels, at a depth of 250m . An ultra-high vacuum and specially designed dampers filter out disruptive vibrations from the immediate environment. The entire technology is quiet, safe and clean: all it does is passively observe and record gravitational waves, which are an existing natural phenomenon.

Drs Sara Issaoun & First Image of a Black Hole


Attending a lecture on the entire EHT (Event Horizon Telescope) experiment from the individual telescopes that record the data through the calibration, imaging, and interpretation of the observations that lead to the first-ever direct image of a black hole released to the world last April 2019. The lecture was given by Drs Sara Issaoun of the Radboud University Nijmegen (NL).



Warming Stripes


The stripes are showing annual global temperatures since 1850 and the colors are covering a change of 1,35°C.

Saturday, September 28, 2019

Oorzaken en gevolgen van energetische zonnedeeltjes

Deze namiddag interessante lezing in de volksterrenwacht, Armand Pien, in Gent. De lezing werd verzorgd door Dr. Mark Dierckxsens.



Spaceweather of ruimteweer is het onderzoeksdomein dat de variabele condities in ons zonnestelsel bestudeert en in het bijzonder de invloed op de ruimte nabij de aarde. De belangrijkste oorzaak voor deze veranderingen is de elfjarige cyclus van de magnetische activiteit van de zon. Hevige uitbarstingen zoals zonnevlammen en plasmawolken die voornamelijk voorkomen tijdens periodes van maximale zonneactiviteit kunnen geladen deeltjes in een korte tijdsspanne versnellen tot hoge energieën. Deze energetische zonnedeeltjes kunnen schade veroorzaken aan cruciale elektronica van ruimtevaartuigen en satellieten, communicatiekanalen verstoren en een schadelijk effect hebben op de gezondheid van zowel astronauten als personeel en passagiers in vliegtuigen die transpolaire routes volgen. De oorzaken en gevolgen van de energetische zonnedeeltjes zullen in detail besproken worden, evenals de methodes die gebruikt worden om hun schadelijke effecten in te perken.