GUMS-10 is the 10th version of the Gaia Universe Model Snapshot, a simulation of the expected contents of the Gaia cataloge run at the MareNostrum supercomputer. The models used and the characteristics of GUMS-10 are described in: A.C. Robin et al, "Gaia Universe Model Snapshot. A statistical analysis of the expected contents of the Gaia catalogue", Astronomy & Astrophysics (2012), in press. For more details see also http://gaia.am.ub.es/GUMS-10/Supernovae in the GUMS-10 simulated GAIA result set.If you use this data, please acknowledge that GUMS was created using the MareNostrum supercomputer.Query successfulShort name for TAP serviceTAP service titleUnique resource registry identifierPublisher for TAP serviceDescriptive URL for search resourceIndividual to contact about this service GUMS source identifier Right ascention of the barycenter at J2010 reference epoch in the ICRS frame Declination of the barycenter at J2010 reference epoch in the ICRS frame GAIA G band apparent magnitude at reference epoch. The GAIA G-band has a wide bandpass between 350 and 150 nm. This is close to Johnson V for V-I between -0.4 and 1.4. SIyLN4AAAAFAc7Mj/8o8y0BB6tr0Qsk+AAAAAEiPfbKAAAABQHPCXeJtfdFAQlKD Uw57qQAAAABIj8oIgAAAAUBz5UrAhNRFQEKSREpxKyEAAAAASI9UIoAAAAFAc9Rw ldpT4UBChQnSTbl2AAAAAEiPdUaAAAABQHO4ommdD+NAQmqiXOafjAAAAABIjkQ6 gAAAAUBzqMK92aFwQEKEDLhd9GEAAAAASI59e4AAAAFAc5g+FrafuEBCus89V3m8 AAAAAEiPZ36AAAABQHOyV0AQPtFAQqb+at6XDAAAAABIj2Z/gAAAAUBzsjg3Fy80 QEKybHyEPGwAAAAASI5SlYAAAAFAc7Guc3OOikBC5fxw5nUHAAAAAEiP4SyAAAAB QHPHIScjvaJAQuLgAUVnrQAAAABIjlV0gAAAAUBzozyo9hyMQELhj9Qt9T0AAAAA SI7LsYAAAAFAc57Uv9XVxUBDFYUkVD3nAAAAAEiOylGAAAABQHOeaZmcwx5AQyxk 74XNFgAAAABIj/+JgAAAAUBz6jaKJV84QEK63jSuQhkAAAAASI/fJoAAAAFAc/17 XaOZm0BC9L4zEkr6AAAAAEiP8Q2AAAABQHPdKHrRSiFAQt13Kl6inwAAAABIj5D0 gAAAAUB0DZ48ww1/QEMI+0LNwlAAAAAASI3MOoAAAAFAdCrwCbsNmUBDXc3qHzTY AAAAAEiNUuWAAAABQHQI3LRHLQtAQ1boSikxgwAAAABIjVuEgAAAAUB0AZ7i9IAA QEOF6Ywo7I0AAAAASI1a5oAAAAFAdAkVIIHY6EBDoOK2iknGAAAAAEiPE/2AAAAB QHPIBOdGi79AQy1ZiQEM1gAAAABIjwZ/gAAAAUBz2HyIvOa4QEPJGwsjRrIAAAAA SI82E4AAAAFAc/IUTs8HyEBDcfdrgWSuAAAAAEiPDD+AAAABQHPlmklFhQhAQ6/e f8sHDgAAAABIjwxqgAAAAUBz57d3Gt2tQEO78KSmrdsAAAAASIKGhYAAAAFAc/6l MT8lDkBERhMw8ZudAAAAAEiGnoyAAAABQHNs8j+hTpJAQqYqHemlMAAAAABIhiHX gAAAAUBzYx/wZdkRQEMVis0kKdQAAAAASI74GoAAAAFAc6T6/wSsFkBDjn53MqXv AAAAAEiO226AAAABQHOcP3AGOYJAQ5m7CvfTmQAAAABIjttegAAAAUBznywMJVic QEOd+BYVS0kAAAAASI4UpYAAAAFAc3maexo0m0BDZDf3tf3UAAAAAEiGJbaAAAAB QHNTWFUMRDZAQzI2sIgOKQAAAABIhjUMgAAAAUBzRF75/zBkQENPzfQ5rKQAAAAA SI4xmIAAAAFAc3gTsvl41kBDowhvbZ9dAAAAAEiOC2eAAAABQHNg9j3uvDJAQ867 WL+KOwAAAABIjgg/gAAAAUBzZkWINvzXQEPtqdArO+4AAAAASIE8iYAAAAFAc2Jw 1qlE8UBES/KO0TfsAAAAAEiOm1+AAAABQHO0ES7dBzxARAbp4UiHzAAAAABIjo9g gAAAAUBzz/1Y4I3HQEQDhxlfdsgAAAAASIMBsoAAAAFAc+pPyKTmSUBEVsbc3ji0 AAAAAEiDDaqAAAABQHPf3QjaEF5ARHvfCgUp9gAAAABIgy9qgAAAAUBzzeEKAC9F QETz8IJsJE4AAAAASIMvooAAAAFAc9E2603thEBE+tkEyajGAAAAAEiB7AKAAAAB QHOQiLsico5ARIsI9xvcWwAAAABIgdRJgAAAAUBzfyzjUgqcQESgZIRvTAUAAAAA SIMtnIAAAAFAc9FWPWf9kEBFEB6QQUIfAAAAAEiBzn+AAAABQHOhbTUFNLFARPxE G51jmAAAAABIgaLQgAAAAUBzpme3hTKcQEUnhd0EW+MAAAAASIGqloAAAAFAc5pU 0120eUBFP6LF+cB/AAAAAEiDnaeAAAABQHOz56god2JARXQEgQX7JwAAAABIjfK3 gAAAAUB0PyXi8S75QEN9Hhod//4AAAAASI3nM4AAAAFAdC9zwVFTHEBDvaY+HiBc AAAAAEiN5PqAAAABQHQoZO8vAA1AQ7IXeL9hEgAAAABIjeGdgAAAAUB0MWJpFTPL QEP6e+RNS08AAAAASI3jsoAAAAFAdDYQSetkLEBD/tj5u0R4AAAAAEiNO5GAAAAB QHRfKY2Wv7dAQ+5e0GBXfQAAAABIgg+qgAAAAUB0dKxaDIeEQEQ8nkkS/HQAAAAA SII5MYAAAAFAdGamr2WKJkBElXCupUF7AAAAAEiCmVuAAAABQHQdCIrnML5AREA4 DzhWNwAAAABIgp5ogAAAAUB0J5g9lMdFQERk0ZbQ+JkAAAAASIK4vIAAAAFAdAvQ MT3suUBESBAj+O+DAAAAAEiCt9qAAAABQHQEA6lrahFARJTqt6D4rwAAAABIgquN gAAAAUB0HdERm1epQETJVZ7FZlcAAAAASILh54AAAAFAdFPwl2utL0BFFAq9oNuj AAAAAEiC/7uAAAABQHQ2WTtJwz5ARMtEl15oMAAAAABIgsVvgAAAAUB0KEjpjXHB QETpcQBXvSQAAAAASIJUv4AAAAFAdDHlWpg3wkBFMAEsXVVlAAAAAEiCbSyAAAAB QHROsJqSHMlARTAIPa/3EQAAAABIgmssgAAAAUB0R6fcWqTgQEU8HTOUdPQAAAAA SQEDPIAAAAFAdIgE4mX3D0BEW4ZBe2egAAAAAEkOCQCAAAABQHSNl94qbK9ARIjn 9R+OmQAAAABJATjxgAAAAUB0jNDY3FRgQEUIgpDHPjYAAAAASIIRX4AAAAFAdGGf QDA9W0BE5zHmw5DEAAAAAEiCELuAAAABQHRnjSKkJW1ARQGdzUgQRgAAAABJASq8 gAAAAUB0dvb2/SuwQEUzGdio3csAAAAASQEpI4AAAAFAdHMuu76m90BFX7lJFCRK AAAAAEkBM8SAAAABQHR+M6Lxz7lARU/T+ub0cgAAAABJAZ9IgAAAAUB0YS6FvCwB QEWtZQbF+p0AAAAASQHZ6oAAAAFAdGjueUnuSUBFtI8XIZo7AAAAAEkOJUyAAAAB QHSXyKlXFmxARVNo8ADXWAAAAABJARcTgAAAAUB0hR3dH0HFQEWVS7J+piwAAAAA SQ7Q84AAAAFAdJg+WmmQl0BF/sgTeRxcAAAAAEkOkBmAAAABQHSW97NxJoVARgm2 NyBOGgAAAABJAWCygAAAAUB0kg5pS6dnQEYhd9zIv1oAAAAASIM7vIAAAAFAc/Hu hCq5r0BExuyYLDsmAAAAAEiCoOCAAAABQHQMq/19Xg5ARR1EemPT7wAAAABIg+AT gAAAAUB0DDKTBB+RQEU7gfPOQ48AAAAASILJ7IAAAAFAdCij9yYjlkBFHtEaTx+P AAAAAEiCcIGAAAABQHQ1VGHiLOxARUZVVLqfrgAAAABIglhKgAAAAUB0IQp/H5Kj QEWRIrqoX1MAAAAASIPdPoAAAAFAc8ZBFbhChEBFX8xJrzZyAAAAAEiDsE+AAAAB QHPHkHJCBSNARb/uBCKGegAAAABIg1QbgAAAAUBz+oXGaXH/QEW4brbMpY8AAAAA SIN5B4AAAAFAdAYz5U/wSUBF77ArlHB4AAAAAEiDRvyAAAABQHQfiJdAywtARiL2 gXlBBwAAAABIgItYgAAAAUB0FnHQJSUkQEZF4UITfUoAAAAASIChgoAAAAFAc+6z W6obV0BGMMHa7mPtAAAAAA==