Author: Andrew

An electrical engineer, amateur astronomer, and diver, living and working on the island of Hawaiʻi.

Mercury at Maximum Elongation

Today Mercury will be at maximum eastern elongation, as high in the evening sky as it will appear for this current apparition. After today the planet will slide back into the sunset, passing through inferior conjunction on May 30th and reappearing in the dawn during the first weeks of June.

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Visiting the Volcano… Again

Manning the Keck Observatory table at AstroDay had me in Hilo again this weekend. Already close, why not visit the volcano again?

Lava Lake at Halemaʻumaʻu
The lava lake at Halemaʻumaʻu sport several fountains of lava along the far rim, May 2, 2015.
This time I drug Deb along with me, not completely unwillingly I admit. A simple plan… Drive over the island early, do lunch at Hilo Burger Joint, off to the mall to do our thing at the table, breakdown the displays, and straight out to the volcano.

That “straight out” to the volcano part was a very good idea, I had made that clear in the plan. Arriving at the park we could see preparations and extra personnel ready for an onslaught of visitors. We got there just in time, parking in the Jagger Museum parking lot. A short time later we learned from the folks just arriving that they were parking at another lot further out. At least the Park Service had a shuttle bus running.

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What Will Kilauea Do?

The pressure just keeps on building. This is a major surge of magma into the mountain. There is not much mystery about this… The increased seismic levels, the rising lava lake, but most of all the tilt meters indicating substantial inflation of the summit caldera.

Kilauea Deformation 20150502
Deformation data for Kilauea Caldera from the USGS Hawaii Volcano Observatory for May 2, 2015
Always watch the deformation data, this is the single best indicator of the pressure in the magma chamber. Sensitive tilt meters continuously monitor the swelling of the summit around the caldera, giving a real time view inside the volcano.

As you can see from the graph it has gone up and up over the last week. There have been a couple pauses, almost looking like it was going to begin deflation. But no, it just goes up again. The result is lava spilling out onto the floor of Halemaʻumaʻu crater and a beautiful nighttime show.

The interesting thing is that this increase in pressure has not been seen at the downslope vent around Puʻu ʻŌʻō. The flows there remain rather anemic and there is no sign of inflation around the vent. Add the seismic data and things get interesting.

Kilauea Seismic Data 20150502
Seismic data for the Kilauea Caldera and southeast rift zone May 2, 2015
The USGS has sketched out this basic outline of the events in the volcano in their public press releases. But they are rather cautious to give any strong predictions. No surprise, they have a reputation to maintain. Perhaps it is wise to not give any predictions, this volcano may seem predictable, but when you least expect it it does something different.

I on the other hand, have no professional reputation as a vulcanologist. I can throw caution to the wind and prognosticate…

My prediction? Unless something occurs to relieve the pressure, perhaps a major increase in the flow of lava at Puʻu ʻŌʻō, there will be an eruption elsewhere. My guess? South of the main caldera along the southeast rift zone in the Makaopuhi Crater or Nāpau Crater area.

When? Who knows, much depends on the magma supply surge continuing. As long as the pressure keeps building the odds of an eruption elsewhere on the volcano increase with it.

It will be interesting to watch. And watch we will. I expect to be at the Jagger museum overlook Saturday evening. Look for the crowd around my telescope.

Preventing Fogging in a GoPro Camera

Fogging is a real problem with GoPro cameras, particularly in diving where humidity is so often an issue. Closing the camera in a damp tropical environment, then submerging the camera in cooler water to dive a tropical reef is a sure recipe to fog the inside of the optical window.

Purging the Air
Purging the air an moisture from the GoPro case with difluoroethane
I understand the desire to keep the case as small as possible. particularly for an action cam. But why? Why could GoPro not include enough room for a small desiccant package, a few millimeters would have been enough. Yes, there are the little pieces of blotter paper sold by GoPro and others, but these are not nearly as effective at removing moisture from the case as true silica gel desiccant products that absorb far more moisture per volume. I have seen GoPro cameras fog up even when properly used with the Anti-Fog inserts.

There is plenty of room in my other camera cases for desiccant packs. I keep a good pile of desiccant on hand in nice little packets just perfect for loading into the camera cases. I put the used packs in my toaster oven for an hour at 150°F to bake the moisture out and reuse the packs over and over again. Simply store in a tightly sealed, airtight container for use.

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A Peek into CFHT

What do we really spend our days doing on the mountain? Usually pretty mundane stuff, just fixing stuff and making improvements to the gear. A little peek into one of those improvements over at CFHT, a fiber run to allow the 8 meter Gemini telescope to feed a spectrograph next door at CFHT. Something not so mundane, rather fun actually…

Canada France Hawaii Telescope Graces Fiber Link with Gemini Telescope from CFHT on Vimeo.

The Dark Matter Conspiracy

W. M. Keck Observatory press release

An international team of astronomers, led by Michele Cappellari from the University of Oxford, has used data gathered by the W. M. Keck Observatory in Hawaii to analyze the motions of stars in the outer parts of elliptical galaxies, in the first such survey to capture large numbers of these galaxies. The team discovered surprising gravitational similarities between spiral and elliptical galaxies, implying the influence of hidden forces. The study will be published in The Astrophysical Journal Letters.

Stellar Velocities in a Galaxy
The top panel shows the original stellar velocity data, as collected using the DEIMOS spectrograph at the W.M. Keck Observatory. The bottom panel shows a numerical model that matches the data remarkably well. Credit: M. Cappellari and the SLUGGS team
The scientists from the USA, Australia, and Europe used the powerful DEIMOS spectrograph installed on the world’s largest optical telescope at Keck Observatory to conduct a major survey of nearby galaxies called SLUGGS, which mapped out the speeds of their stars. The team then applied Newton’s law of gravity to translate these speed measurements into the amounts of matter distributed within the galaxies.

“The DEIMOS spectrograph was crucial for this discovery since it can take in data from an entire giant galaxy all at once, while at the same time sampling the speeds of its stars at a hundred separate locations with exquisite accuracy,” said Aaron Romanowsky, of San Jose State University.

One of the most important scientific discoveries of the 20th century was that the spectacular spiral galaxies, such as our own Milky Way, rotate much faster than expected, powered by an extra gravitational force of invisible “dark matter” as it is now called. Since this discovery 40 years ago, we have learned that this mysterious substance, which is probably an exotic elementary particle, makes up about 85 percent of the mass in the Universe, leaving only 15 percent to be the ordinary stuff encountered in our everyday lives. Dark matter is central to our understanding of how galaxies form and evolve – and is ultimately one of the reasons for the existence of life on Earth – yet we know almost nothing about it.

“The surprising finding of our study was that elliptical galaxies maintain a remarkably constant circular speed out to large distances from their centers, in the same way that spiral galaxies are already known to do,” said Cappellari. “This means that in these very different types of galaxies, stars and dark matter conspire to redistribute themselves to produce this effect, with stars dominating in the inner regions of the galaxies, and a gradual shift in the outer regions to dark matter dominance.”

Stellar Velocity in a Galaxy
The speeds of stars on circular orbits have been measured around both spiral and elliptical galaxies. Credit: M. Cappellari and the SLUGGS team
However, the conspiracy does not come out naturally from models of dark matter, and some disturbing fine-tuning is required to explain the observations. For this reason, the conspiracy even led some authors to suggest that, rather than being due to dark matter, it may be due to Newton’s law of gravity becoming progressively less accurate at large distances. Remarkably, decades after it was proposed, this alternative theory (without dark matter) still cannot be conclusively ruled out.

Spiral galaxies only constitute less than half of the stellar mass in the Universe, which is dominated by elliptical and lenticular galaxies, and which have puffier configurations of stars and lack the flat disks of gas that spirals have. In these galaxies, it has been very difficult technically to measure their masses and to find out how much dark matter they have, and how this is distributed – until now.

Because the elliptical galaxies have different shapes and formation histories than spiral galaxies, the newly discovered conspiracy is even more profound and will lead experts in dark matter and galaxy formation to think carefully about what has happened in the “dark sector” of the universe.

“This question is particularly timely in this period when physicists at CERN are about to restart the Large Hadron Collider to try to directly detect the same elusive dark matter particle, which makes galaxies rotate fast, if it really exists!,” said Professor Jean Brodie, principal investigator of the SLUGGS survey.