The annual Physics for Defence public lecture presents unclassified research carried out by faculty in the Department of Physics and Space Science, and its connections with the mission of the Department of National Defence and the Canadian Armed Forces. .
Public Lecture: Hunting the Sound of Silence: Non-Acoustic Methods of Submarine Detection
Dr. Ron Vincent, RMC
The modern submarine is a stealthy adversary that poses a significant military threat. The standard method of finding a submarine is through the detection of its acoustic signature using hydrophones. However, advances in technology have led to the emergence of virtually silent submarines, rendering acoustic techniques ineffective. This presentation will examine non-acoustic methods of submarine detection that may be employed from an aircraft or satellite. Topics of discussion include: submarine-induced bioluminescence, the Kelvin wake, and the Bernoulli hump. The use of blue-green lasers to detect underwater targets is also examined.
Large quantities of dust are transported annually to the Arctic, primarily from Asian deserts. The influx of dust into the polar environment changes the radiative properties of clouds while the deposition of dust onto ice and snow decreases the surface albedo. Atmospheric and surface dust may be identified with space borne radiometers by comparing infrared energy in the 11 μm and 12 μm regime (BTD11-12). Between 2007 and 2017 satellite infrared data revealed persistent low-level dust clouds in the vicinity of Amundsen Gulf in the Western Canadian Arctic during the melting season. Evidence suggests that the subsequent deposition of atmospheric dust in the region affected the surface emissivity in the thermal infrared regime. As a result, satellite derived sea and ice surface temperature algorithms were rendered inaccurate in these areas. Moreover, the ubiquitous nature of dust in the region may play a role in the rapidly vanishing cryosphere. Further details can be found at: The Effect of Arctic Dust on the Retrieval of Satellite Derived Sea and Ice Surface Temperatures
Satellite images in visible and infrared (19 July 2016) showing dust deposition in Amundsen Sound and effect on surface temperature of land and water.
Capt. Dan Desjardins, Dr Kristine Spekkens and Dr Gregg Wade (left) and officer-cadets (right) in front of a Soyuz capsule
Where Canadian Astronauts are Made
Royal Military College Physics and Space Science officer cadets visit Johnson Space Center
By Capt Daniel Desjardins
11 May 2018
On the morning of 8 May, a group of twenty-two intrepid RMC officer cadets and five staff members boarded a CC130H Hercules, compliments of 424 Transport & Rescue Squadron, to fly to Houston, TX for a memorable visit of NASA’s Johnson Space Center (JSC). The trip was an initiative by the Department of Physics and Space Science to educate their students on human spaceflight and space operations, effectively bridging concepts learned in the classroom to real operational environments.
The skies were clear for the departure out of Trenton. “The weather couldn’t be any better,” said Capt Dagneault, the CC130H aircraft commander in charge of transporting the RMC crew to Houston. The flight was smooth and appeared effortless, taking only slightly over four hours to reach destination. While airborne, officer cadets and RMC staff were invited to listen in on aircraft communications, visit the cockpit, and witness the professional aircrew at work.
After completing check-in and luggage drop-off, the students and staff, joined by the CC130H aircrew, regrouped at T-Bone Tom’s restaurant near the Kemah boardwalk for some exquisite Texas smokehouse BBQ and live music by a local Houston artist. The highlight of the evening, however, was being joined by LCol Josh Kutrick, selected as a Canadian astronaut in 2017. “What an amazing opportunity for everyone, to have dinner and chat with Josh” said Dr. Gregg Wade, Department Head of Physics and Space Science.
Major Don Bedard and Capt Dan Desjardins standing in front of the NBL pool
The following morning, after a hearty breakfast and check-out complete, the group boarded the bus for the much-anticipated tour of JSC. First up was a visit of the Neutral Buoyancy Lab. Try to imagine a gigantic swimming pool, 102’ x 202’ in size and 40’ deep, containing over six million gallons of water and filled with space station modules and capsule mockups. “The astronauts train underwater for up to six hours, sometimes more, simulating extravehicular activities” said Tim Braithwaite, Canadian Space Agency Liaison Office Manager, who had joined the group for the tour.
The group was welcomed via teleconference by Canadian astronaut Col Jeremy Hansen, himself an RMC graduate. After watching astronauts suit-up and be hoisted into the pool for extravehicular activity (“spacewalk”) training, the group proceeded on a tour of the International Space Station Mission Control Center. It was surreal, like a scene from the movies. Screens and buttons were everywhere, and flight controllers gracefully coordinating every single instruction beamed to the International Space Station. It was an elegant display of command and control, the gold standard of professionalism for which NASA is known.
Guided tour of Building 9, home to the Space Vehicle Mockup Facility
Next on the tour was a floor-level visit of Building 9, home to the Space Vehicle Mockup Facility. Floor-level visits there are rare: this was an ultra-VIP experience. Up close, the RMC group got to see full-size Space Station modules, exploration rover prototypes, the Orion and Soyuz space vehicles, and even R5, NASA’s next generation of humanoid robot. Since 1980, every NASA astronaut has walked the floors of Building 9; it was truly inspiring to visit.
The tour concluded with lunch at the Starport Cafe in the JSC complex - and no, there was no freeze-dried ice-cream on the menu. There, we were joined by Dr. Jenni Sidey, the second Canadian astronaut selected in the Canadian Space Agency’s 2017 recruitment. Despite a busy schedule of training and tests, she took great interest in meeting and conversing with our eager group of RMC officer cadets. We were also joined by Ms. Kathleen Garrett, the key person to whom we owe the successful planning of this tour. Thank you very much Cathy.
In closing, academic tours such as these are invaluable. In the first order, future officers are exposed to elite training environments and to role models striving for excellence in everything that they do. At JSC, the inspiration to go further, be better, and work harder was almost palpable; it is a message that resonates well with the College’s four-pillar philosophy. In the second order, the officer cadets were exposed to Canadian Air Force operations aboard the C130H. The professional aircrew invited students and staff to cycle through the cockpit while en route to Houston, answering questions and asking the students about their future careers. RMC civilian staff also partook in the events and got to see first-hand the operational environments in which their students would eventually serve. In sum, the trip was much more than a visit to the JSC, it brought together RMC officer cadets, civilian and military faculty, and a serving CAF aircrew. Few training opportunities are as rich and impactful, and it is hoped that RMC will continue to support academic tours like these.
Physics and Space Science group poses in front of the entrance to Mission Control Center
Capt. Dan Desjardins, Dr Kristine Spekkens and Dr Gregg Wade (left) and officer-cadets (right) in front of a Soyuz capsule
Major Don Bedard and Capt Dan Desjardins standing in front of the NBL pool
Guided tour of Building 9, home to the Space Vehicle Mockup Facility
Physics and Space Science group poses in front of the entrance to Mission Control Center