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44 th Rencontres de Moriond 1 Blind Period Search gamma-ray pulsar by Fermi-LAT F. Giordano Dipartimento Interateneo di Fisica and INFN Sez. Bari for the.

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Presentation on theme: "44 th Rencontres de Moriond 1 Blind Period Search gamma-ray pulsar by Fermi-LAT F. Giordano Dipartimento Interateneo di Fisica and INFN Sez. Bari for the."— Presentation transcript:

1 44 th Rencontres de Moriond 1 Blind Period Search gamma-ray pulsar by Fermi-LAT F. Giordano Dipartimento Interateneo di Fisica and INFN Sez. Bari for the Fermi LAT collaboration

2 44 th Rencontres de Moriond 2 PSR B1706-44 –Flux ~1.1 ∙10 -6 ph/cm 2 s PSR B1951+32 & PSR B1055-52 –Flux for E>100MeV ~10 -7 ph/cm 2 s Vela, Crab & Geminga are the brightest sources in the Gamma-ray sky Their Flux for E>100MeV 10 -5 ÷10 -6 ph/cm 2 s Where we were: the EGRET Pulsars

3 44 th Rencontres de Moriond 3 Geminga Geminga (16 days) Crab Crab (16 days) Vela Vela (16 days) PSR B1055-52 PSR B1055-52 (25 days) PSR B1706-44 PSR B1706-44 (25 days) PSR B1951+32 PSR B1951+32 (25 days) Where we started…

4 44 th Rencontres de Moriond 4 Pulses at 1/10 th true rate Where we are…

5 44 th Rencontres de Moriond 5 1. Radio-quiet gamma-ray sources list generated pre-Launch, with very accurate source locations from other wavelengths. a. 3EG J1835+5918 (possibly the “next Geminga”) b. CTA1 (recently published in Science) c. Compact objects of Pulsar Wind Nebulae (PWNe) d. Milagro sources (e.g. MGROJ2019+37) 2. Fermi-LAT sources – a list of gamma-ray sources generated post- Launch with a Fermi localization Search for new  -ray pulsars The Geminga candidates

6 44 th Rencontres de Moriond 6 The Blind Period Search The spin parameters (frequency, spin-down) are unknown, so to resolve the phase plot, a search over f, df/dt parameter space has to be implemented to find the timing solution. Limitations: 1. Gamma-ray photon data is exceptionally sparse (10 3  10 4 photons per yr ). 2. Such long datasets make fully coherent methods like FFTs require large numbers of fdot trials to prevent smearing of the signal. This large number of trials would also greatly reduce the significance of the signal. 3. FFTs of this magnitude require large amounts of memory: 1 month @ 64 Hz = 331 million bins = 5.3 GB of memory! 4. If the pulsar were to glitch (suddenly change its frequency), then the signal power would diminish greatly.

7 44 th Rencontres de Moriond 7 The “Time-Differencing” Technique Periodicity in photon arrival times will also show up in differences of photon arrival times. Time differences cancel out long term phase slips because differencing starts the "clock" over (and over, and over...) Despite the reduced frequency resolution (and therefore number of bins), the sensitivity is not much reduced because of a compensating reduction in the number of fdot trials

8 44 th Rencontres de Moriond 8 The First Candidate

9 44 th Rencontres de Moriond 9 CTA 1 pulsar (2 cycles, P=315.86 ms)  -ray source at l,b = 119.652, 10.468; 95% error circle radius =0.038° contains the X-ray source RX J00070+7302, central to the PWN superimposed on the radio map at 1420 MHz. Pulsar off-set from center of radio SNR; rough estimate of the lateral speed of the pulsar is ~450 km/s Exhibits all characteristics of a young high- energy pulsar (characteristic age ~1.4 x 10 4 yr), which powers a synchrotron pulsar wind nebula embedded in a larger SNR. Spin-down luminosity ~10 36 erg s -1, sufficient to supply the PWN with magnetic fields and energetic electrons. The  -ray flux from the CTA 1 pulsar corresponds to about 1-10% of E rot (depending on beam geometry) 9 The First discovery Science, Volume 322, Issue 5905, pp. 1218- (2008). P 315.8 ms Pdot3.61×10 -13 s/s

10 44 th Rencontres de Moriond 10 EG UnID sources 3EG1809.5 (Taz) 3EG J1826-1302 (Eel) 3EG J1420-6038 (Rabbit) 3EG J1734-3232 3EG J1741-2050 3EG J0631+0642 3EGJ2020 Gamma-Cigny 3EG J1958+2909 3EG J2033+4118

11 44 th Rencontres de Moriond 11 More Blind Search Pulsars (not in 3EG ) PSR J0357.5+3211 PSR J2238+5852 1 MGRO + 2 new Fermi Sources PSR J1907.5+0601 MGRO J1908+06

12 44 th Rencontres de Moriond 12 First population study Blind search pulsars ATNF pulsars Flux (Ph/cm 2 s) P1 P0 B Strength (Gauss) Edot (erg/s) 10 12 10 1110 10 9 10 8 10 7 10 6 10 5 10 4 10 3 10 2 10 1 Age (yr) 10 12 10 1110 10 9 10 8 10 7 10 6 10 5 10 4 10 3 10 2 10 1 Age (yr)

13 44 th Rencontres de Moriond 13 Conclusions - 13 new (potentially radio-quiet) gamma-ray pulsars have been discovered in 3 months of Fermi-LAT data - 10 out of 13 of these blind period search pulsars have an EGRET source location (3EG). Since two-thirds of EGRET sources remain unidentified, and this is a good step in identifying them. - These pulsars have an age distribution 10 kyr - 1.8 Myr and spin-down luminosity distribution: 10 33 erg/s - 10 36 erg/s - These new pulsar discoveries will enable a population study of radio- quiet vs. radio-loud pulsars which will provide new information on the emission geometry in these sources and the galactic populations of these high energy emitters. - Deep radio pulsar searches of the new gamma-ray only pulsars have begun, in order to get strong constraints on the radio luminosity.

14 44 th Rencontres de Moriond 14

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