The Experts below are selected from a list of 264 Experts worldwide ranked by ideXlab platform
M Rybníček - One of the best experts on this subject based on the ideXlab platform.
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the best possible Time Resolution how precise could a radiocarbon dating method be
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, Veronika Brychova, D Dreslerová, Pachnerova K Brabcova, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
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The Best possible Time Resolution: How precise could a Radiocarbon dating method be?
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, K Pachnerova Brabcova, Veronika Brychova, D Dreslerová, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
I Svetlik - One of the best experts on this subject based on the ideXlab platform.
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the best possible Time Resolution how precise could a radiocarbon dating method be
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, Veronika Brychova, D Dreslerová, Pachnerova K Brabcova, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
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The Best possible Time Resolution: How precise could a Radiocarbon dating method be?
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, K Pachnerova Brabcova, Veronika Brychova, D Dreslerová, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
Mihály Molnár - One of the best experts on this subject based on the ideXlab platform.
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the best possible Time Resolution how precise could a radiocarbon dating method be
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, Veronika Brychova, D Dreslerová, Pachnerova K Brabcova, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
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The Best possible Time Resolution: How precise could a Radiocarbon dating method be?
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, K Pachnerova Brabcova, Veronika Brychova, D Dreslerová, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
Pavel P. Povinec - One of the best experts on this subject based on the ideXlab platform.
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the best possible Time Resolution how precise could a radiocarbon dating method be
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, Veronika Brychova, D Dreslerová, Pachnerova K Brabcova, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
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The Best possible Time Resolution: How precise could a Radiocarbon dating method be?
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, K Pachnerova Brabcova, Veronika Brychova, D Dreslerová, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
T Kolář - One of the best experts on this subject based on the ideXlab platform.
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the best possible Time Resolution how precise could a radiocarbon dating method be
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, Veronika Brychova, D Dreslerová, Pachnerova K Brabcova, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.
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The Best possible Time Resolution: How precise could a Radiocarbon dating method be?
Radiocarbon, 2019Co-Authors: I Svetlik, A. J. T. Jull, Mihály Molnár, Pavel P. Povinec, T Kolář, P Demján, K Pachnerova Brabcova, Veronika Brychova, D Dreslerová, M RybníčekAbstract:Today, accelerator mass spectrometry (AMS) technology enables us to carry out very precise measurements of radiocarbon (14C). Unfortunately, due to fluctuations in the 14C calibration curve, the resulting calibrated Time intervals vary from decades up to centuries in calibrated age. Within a Time scale of several decades, we can find several Time intervals on the 14C calibration curve which correspond with periods of rapid increases in atmospheric 14CO2 activity. Some of these “high slope” parts of the calibration curve could be used for fine Time Resolution for radiocarbon dating of individual samples. Nevertheless, there are certain limitations owing to the properties of the samples measured. We have prepared a Time-Resolution curve for the 14C dating method, applying calibration curve IntCal13 and assuming an uncertainty of 14C analyses ±15 yr BP (for recent samples). Our curve of the Time Resolution covers the last 50 ka. We found several Time intervals with Time Resolution below 50 yr BP for the last 3 ka. Several Time intervals which can enable substantially better Time Resolution compared to neighboring parts of the calibration curve were also found for periods older than 3 ka.